Methods of Treating Breast Cancer With Taxane Therapy

ABSTRACT

The application describes methods for screening subjects with breast cancer to determine if the breast cancer will be responsive to a breast cancer therapy including a taxane or a taxane derivative. The application also describes methods for treating subjects with breast cancer by screening them for the likelihood of the effectiveness of treating the cancer with a therapy including a taxane or a taxane derivative and administering the therapy in subjects when it is found that a taxane or a taxane derivative is likely to be effective.

CROSS-REFERENCE TO RELATED APPLICATIONS

This application claims priority to, and the benefit of, U.S. Ser. No.61/565,133, filed Nov. 30, 2011, and U.S. Ser. No. 61/635,048, filedApr. 18, 2012. The contents of each of these applications are hereinincorporated by reference in their entirety.

FIELD OF THE INVENTION

This disclosure relates generally to the field of cancer biology, andspecifically, to the fields of detection and identification of specificcancer cell phenotypes and correlation with appropriate therapies.

BACKGROUND OF THE INVENTION

Human breast cancers are classifiable into five molecular distinctintrinsic subtypes, Her2-enriched, Basal-like, Luminal A, Luminal B andnormal-like (Perou et al. Nature, 406(6797):747-52 (2000); Sorlie et al.PNAS, 98(19):10869-74 (2001)). Although differences in prognosis andmolecular biology have been established, to date, there exists lessevidence demonstrating a variation in chemosensitivity among theintrinsic subtypes.

Taxane therapy has proven to be effective against many types of tumors.However, side effects are associated with taxane therapy, includingnausea and vomiting, loss of appetite, change in taste, thinned orbrittle hair, pain in the joints of the arms or legs lasting two tothree days, changes in the color of the nails, and tingling in the handsor toes. More serious side effects such include bruising or bleeding,pain/redness/swelling at the injection site, change in normal bowelhabits for more than two days, fever, chills, cough, sore throat,difficulty swallowing, dizziness, shortness of breath, severeexhaustion, skin rash, facial flushing, female infertility by ovariandamage and chest pain. Based on these side-effects of taxane basedtherapy, there is a need in the art to determine types of cancer thatrespond best to taxane based therapy and which types of cancer would bebetter to treat with non-taxane based therapy.

SUMMARY OF THE INVENTION

The present invention provides methods of treating breast cancer in asubject in need thereof comprising: providing a sample from the subject;determining the expression of at least one gene from Table 1 in thesample; determining a proliferation signature based on the expression ofsaid at least one gene in the sample; and administering a breast cancertreatment to the subject, wherein if the sample is classified as havinga low proliferation signature, the subject is administered a breastcancer treatment comprising a taxane or taxane derivative and wherein ifthe sample is classified as not having a low proliferation signature,the subject is administered a breast cancer treatment not comprising ataxane or taxane derivative, thereby treating breast cancer in thesubject.

The present invention also provides methods of screening for thelikelihood of the effectiveness of a breast cancer treatment comprisinga taxane or a taxane derivative in a subject in need thereof comprising:providing a sample from the subject; determining the expression of atleast one gene from Table 1 in the sample; and determining aproliferation signature based on the expression of said at least onegene in the sample; wherein if the sample is classified as having a lowproliferation signature, the breast cancer treatment comprising thetaxane or taxane derivative is more likely to be effective in thesubject.

The present invention also provides methods of treating breast cancer ina subject in need thereof comprising: providing a sample from thesubject; determining the expression of at least one gene of Table 1 insaid sample; determining the average gene expression of said at leastone gene in said sample to obtain a proliferation signature; comparingthe proliferation signature of the sample to a reference sample set; andadministering a breast cancer treatment to the subject, wherein if theproliferation signature of the sample is within the lowest sub-range ofthe reference sample set, the proliferation signature of the sample is alow proliferation signature, and wherein if the sample is classified ashaving a low proliferation signature, the subject is subjected to abreast cancer treatment comprising a taxane or taxane derivative,administered weekly, and wherein if the sample is classified as nothaving a low proliferation signature, the subject is subjected to abreast cancer treatment not comprising a taxane or taxane derivative,administered weekly, thereby treating breast cancer in the subject.

The present invention also provides methods of screening for thelikelihood of the effectiveness of a breast cancer treatment comprisinga taxane or a taxane derivative, administered weekly, in a subject inneed thereof comprising: providing a sample from the subject;determining the expression of at least one gene of Table 1 in saidsample; determining the average gene expression of said at least onegene in said sample to obtain a proliferation signature; and comparingthe proliferation signature of the sample to a reference sample set;wherein if the proliferation signature of the sample is within thelowest sub-range of the reference sample set, the proliferationsignature of the sample is a low proliferation signature, and wherein ifthe sample is classified as having a low proliferation signature, thebreast cancer treatment comprising the taxane or taxane derivative,administered weekly, is more likely to be effective in the subject.

The methods of the present invention can include determining theexpression of at least one of, a combination of, or each of, the genesrecited in Table 1. Preferably, the at least one gene is a proliferationgene. More preferably, the at least one gene is at least 1, at least 2,at least 3, at least 4, at least 5, at least 6, at least 7, at least 8,at least 9, at least 10, at least 11, at least 12, at least 13, at least14, at least 15, at least 16, at least 17, at least 18, at least 19, atleast 20, or at least 21 genes listed in Table 1.

In some embodiments, the methods of the present invention can includedetermining the expression of at least one of, a combination of, or eachof, the PAM50 intrinsic genes selected from ANLN, BIRC5, CCNB1, CCNE1,CDC20, CDC6, CDCA1, CENPF, CEP55, EXO1, KIF2C, KNTC2, MELK, MKI67,MYBL2, ORC6L, PTTG1, RRM2, TYMS, UBE2C and/or UBE2T. In someembodiments, the methods of the present invention can includedetermining the expression of at least one of, a combination of, or eachof, the PAM50 intrinsic genes selected from ANLN, CCNB1, CCNE1, CDC20,CDC6, CDCA1, CENPF, CEP55, EXO1, KIF2C, KNTC2, MELK, MKI67, ORC6L,PTTG1, RRM2, TYMS, UBE2C and/or UBE2T. In some embodiments, the methodsof the present invention can include determining the expression of atleast one of, a combination of, or each of, the PAM50 intrinsic genesselected from BIRC5, CCNB1, CDC20, CDCA1/NUF2, CEP55, KNTC2/NDC80,MKI67, PTTG1, RRM2, TYMS and/or UBE2C. In some embodiments, the methodsof the present invention can include determining the expression of atleast one of, a combination of, or each of, the PAM50 intrinsic genesselected from ANLN, CCNB1, CDC20, CENPF, CEP55, KIF2C, MKI67, MYBL2,RRM2 and/or UBE2C. The expression of the at least one gene from Table 1can be determined using the nanoreporter code system (nCounter® Analysissystem).

The taxane or taxane derivative can be paclitaxel (Taxol®) or docetaxel(Taxotere®). Preferably, the taxane or taxane derivative is paclitaxel.The taxane or taxane derivative can be administered daily (once every 24hours), weekly (once every 5-7 days), every two weeks (every 10-14 days)or monthly (once every 30 days). Preferably, the taxane or taxanederivative is administered weekly.

The breast cancer treatment comprising a taxane or taxane derivative canfurther comprises one or more members, or each of the members of thegroup consisting of anthracycline, cyclophosphamide and 5-fluorouracil.The anthracycline can be doxorubicin or epirubicin. The taxane or taxanederivative can be administered before, after, or simultaneously with,the administration of the anthracycline, cyclophosphamide and/or5-fluorouracil. Preferably, the taxane or taxane derivative isadministered before or after the administration of the anthracycline,cyclophosphamide and/or 5-fluorouracil.

The methods of the present invention can include determining at leastone of, a combination of, or each of, the following: tumor size, tumorgrade, nodal status, intrinsic subtype, estrogen receptor expression,progesterone receptor expression, HER2/ERBB2 expression and/or RORscore.

The sample can be a sampling of cells or tissues. The tissue can beobtained from a biopsy. The sample can be a sampling of bodily fluids.The bodily fluid can be blood, lymph, urine, saliva or nipple aspirate.

While the disclosure has been described in conjunction with the detaileddescription thereof, the foregoing description is intended to illustrateand not limit the scope of the disclosure, which is defined by the scopeof the appended claims. Other aspects, advantages, and modifications arewithin the scope of the following claims.

The patent and scientific literature referred to herein establishes theknowledge that is available to those with skill in the art. All UnitedStates patents and published or unpublished United States patentapplications cited herein are incorporated by reference. All publishedforeign patents and patent applications cited herein are herebyincorporated by reference. Genbank and NCBI submissions indicated byaccession number cited herein are hereby incorporated by reference. Allother published references, documents, manuscripts and scientificliterature cited herein are hereby incorporated by reference.

While this disclosure has been particularly shown and described withreferences to preferred embodiments thereof, it will be understood bythose skilled in the art that various changes in form and details may bemade therein without departing from the scope of the disclosureencompassed by the appended claims.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1A is a line graph showing overall survival rates in the FEC andFEC-P treatment arms. FIG. 1B is a line graph showing overall survivalrates based on tumor subtypes.

FIG. 2A is a line graph showing overall survival rates based onproliferation scores.

FIG. 2B is a line graph showing overall survival rates based on Ki-67.

FIG. 3A is a line graph showing overall survival rates in the FEC andFEC-P treatment arms in patients whose tumors had a low proliferationscore. FIG. 3B is a line graph showing overall survival rates in the FECand FEC-P treatment arms in other proliferation score groups.

FIG. 4 is a line graph showing 10 year overall survival as a linearfunction of the proliferation score for both the FEC and FEC-P treatmentarms.

FIG. 5 is a schematic of the GEICAM/9906 trial sample set.

DETAILED DESCRIPTION OF THE INVENTION

The disclosure presents a method of determining whether a breast cancertreatment comprising a taxane or taxane derivative is optimal foradministration to a patient suffering from breast cancer. Determiningwhether a breast cancer patient should receive a treatment including ataxane or taxane derivative includes determining the proliferationsignature of the breast cancer using an intrinsic gene expression set.The disclosure also provides a method of treating breast cancer bydetermining whether a breast cancer patient should receive a treatmentincluding a taxane or taxane derivative and then administering theoptimal breast cancer treatment to the patient based on thatdetermination.

Intrinsic genes, as described in Perou et al. (2000) Nature 406:747-752,are statistically selected to have low variation in expression betweenbiological sample replicates from the same individual and high variationin expression across samples from different individuals. Thus, intrinsicgenes are used as classifier genes for breast cancer classification.Although clinical information was not used to derive the breast cancerintrinsic subtypes, this classification has proved to have prognosticsignificance. Intrinsic gene screening can be used to classify breastcancers into various subtypes. The major intrinsic subtypes of breastcancer are referred to as Luminal A (LumA), Luminal B (LumB),HER2-enriched (Her-2-E), Basal-like, and Normal-like.

The PAM50 gene expression assay (Parker et al. J Clin Oncol.,27(8):1160-7 (2009) and International Publication No. WO 2009/158143,both incorporated herein, by reference, in their entireties) is able toidentify intrinsic subtype from standard formalin fixed paraffinembedded tumor tissue. The methods utilize a supervised algorithm toclassify subject samples according to breast cancer intrinsic subtype.This algorithm, referred to herein as the PAM50 classification model, isbased on the gene expression profile of a defined subset of intrinsicgenes that has been identified herein as superior for classifying breastcancer intrinsic subtypes. The subset of genes, along with primersspecific for their detection, is provided in Table 1.

TABLE 1 PAM50 Intrinsic Gene List REPRESENTATIVE GENBANK SEQ SEQACCESSION FORWARD ID ID GENE NUMBER PRIMER NO: REVERSE PRIMER NO: ACTR3BNM_020445| AAAGATTCCTGGG 1 TGGGGCAGTTCTGTA 51 NM_001040135 ACCTGATTACTTC ANLN NM_018685 ACAGCCACTTTCA 2 CGATGGTTTTGTACA 52 GAAGCAAGAGATTTCTC BAG1 NM_004323 CTGGAAGAGTTGA 3 GCAAATCCTTGGGCA 53 ATAAAGAGC GABCL2 NM_000633 TACCTGAACCGGC 4 GCCGTACAGTTCCAC 54 ACCTG AAAGG BIRC5NM_001012271 GCACAAAGCCATT 5 GACGCTTCCTATCAC 55 CTAAGTC TCTATTC BLVRABX647539 GCTGGCTGAGCAG 6 TTCCTCCATCAAGAG 56 AAAG TTCAACA CCNB1 NM_031966CTTTCGCCTGAGCC 7 GGGCACATCCAGAT 57 TATTT GTTT CCNE1 BC035498GGCCAAAATCGAC 8 GGGTCTGCACAGACT 58 AGGAC GCAT CDC20 BG256659CTGTCTGAGTGCC 9 TCCTTGTAATGGGGA 59 GTGGAT GACCA CDC6 NM_001254GTAAATCACCTTCT 10 ACTTGGGATATGTGA 60 GAGCCT ATAAGACC CDCA1 NM_031423GGAGGCGGAAGAA 11 GGGGAAAGACAAAG 61 ACCAG TTTCCA CDH3 BC041846GACAAGGAGAATC 12 ACTGTCTGGGTCCAT 62 AAAAGATCAGC GGCTA CENPF NM_016343GTGGCAGCAGATC 13 GGATTTCGTGGTGGG 63 ACAA TTC CEP55 AB091343CCTCACGAATTGCT 14 CCACAGTCTGTGATA 64 GAACTT AACGG CXXC5 BC006428CATGAAATAGTGC 15 CCATCAACATTCTCT 65 ATAGTTTGCC TTATGAACG EGFR NM_005228ACACAGAATCTAT 16 ATCAACTCCCAAACG 66 ACCCACCAGAGT GTCAC ERBB2NM_001005862 GCTGGCTCTCACA 17 GCCCTTACACATCGG 67 CTGATAG AGAAC ESR1NM_001122742 GCAGGGAGAGGAG 18 GACTTCAGGGTGCTG 68 TTTGT GAC EXO1NM_130398 CCCATCCATGTGA 19 TGTGAAGCCAGCAA 69 GGAAGTATAA TATGTATC FGFR4AB209631 CTTCTTGGACCTTG 20 TATTGGGAGGCAGG 70 GCG AGGTTTA FOXA1 NM_004496GCTACTACGCAGA 21 CTGAGTTCATGTTGC 71 CACG TGACC FOXC1 NM_001453GATGTTCGAGTCA 22 GACAGCTACTATTCC 72 CAGAGG CGTT GPR160 AJ249248TTCGGCTGGAAGG 23 TATGTGAGTAAGCTC 73 AACC GGAGAC GRB7 NM_005310CGTGGCAGATGTG 24 AGTGGGCATCCCGTA 74 AACGA GA HSPC150 NM_014176GGAGATCCGTCAA 25 AGTGGACATGCGAG 75 (UBE2T) CTCCAAA TGGAG KIF2C NM_006845TGGGTCGTGTCAG 26 CACCGCTGGAAACT 76 GAAAC GAAC KNTC2 NM_006101CGCAGTCATCCAG 27 CGTGCACATCCATGA 77 AGATGTG CCTT KRT14 BC042437ACTCAGTACAAGA 28 GAGGAGATGACCTT 78 AAGAACCG GCC KRT17 AK095281GTTGGACCAGTCA 29 GCCATAGCCACTGCC 79 ACATCTCTG ACT KRT5 M21389TGTGGCTCATTAG 30 CTTCGACTGGACTCT 80 GCAAC GT MAPT NM_001123066GACTCCAAGCGCG 31 CAGACATGTTGGTAT 81 AAAAC TGCACATT MDM2 M92424CCAACAAAATATT 32 AGGCGATCCTGGGA 82 CATGGTTCTTG AATTAT MELK NM_014791CCAGTAGCATTGT 33 CCCATTTGTCTGTCT 83 CCGAG TCAC MIA BG765502GTCTCTGGTAATGC 34 CTGATGGTTGAGGCT 84 ACACT GTT MKI67 NM_002417GTGGAATGCCTGC 35 CGCACTCCAGCACCT 85 TGACC AGAC MLPH NM_024101AGGGGTGCCCTCT 36 TCACAGGGTCAAACT 86 GAGAT TCCAGT MMP11 NM_005940CGAGATCGCCAAG 37 GATGGTAGAGTTCCA 87 ATGTT GTGATT MYBL2 BX647151AGGCGAACACACA 38 TCTGGTCACGCAGGG 88 ACGTC CAA MYC NM_002467AGCCTCGAACAAT 39 ACACAGATGATGGA 89 TGAAGA GATGTC NAT1 BC013732ATCGACTGTGTAA 40 AGTAGCTACATCTCC 90 ACAACTAGAGAAGA AGGTTCTCTG ORC6LNM_014321 TTTAAGAGGGCAA 41 CGGATTTTATCAACG 91 TGGAAGG ATGCAG PGRNM_000926 TGCCGCAGAACTC 42 CATTTGCCGTCCTTC 92 ACTTG ATCG PHGDH AK093306CCTCAGATGATGC 43 GCAGGTCAAAACTCT 93 CTATCCA CAAAG PTTG1 BE904476CAGCAAGCGATGG 44 AGCGGGCTTCTGTAA 94 CATAGT TCTGA RRM2 AK123010AATGCCACCGAAG 45 GCCTCAGATTTCAAC 95 CCTC TCGT SFRP1 BC036503TCGAACTGAAGGC 46 CTGCTGAGAATCAA 96 TATTTACGAG AGTGGGA SLC39A6 NM_012319GTCGAAGCCGCAA 47 GGAACAAACTGCTCT 97 TTAGG GCCA TMEM45B AK098106CAAACGTGTGTTCT 48 ACAGCTCTTTAGCAT 98 GGAAGG TTGTGGA TYMS BQ056428TGCCCTGTATGATG 49 GGGACTATCAATGTT 99 TCAGGA GGGTTCTC UBE2C BC032677GTGAGGGGTGTCA 50 CACACAGTTCACTGC 100 GCTCAGT TCCACA

Table 2 provides select sequences for the genes of Table 1.

TABLE 2 GENBANK ACCESSION SEQ NUMBER SEQUENCE ID NO: NM_020445CAGCGGCGCTGCGGCGGCTCGCGGGAGACGCTGCGCGCGGGGCTAGCGGGCGGCGGAGCGGACGGCGACG101GGGCGCTCTCGGGCTGCCGGCGGGGCCGAGCGCCGCGCGTCCCGAGCATGGCAGGCTCCCTGCCTCCCTGCGTGGTGGACTGTGGCACCGGGTATACCAAGCTTGGCTACGCAGGCAACACTGAGCCCCAGTTCATTATTCCTTCATGTATTGCCATCAGAGAGTCAGCAAAGGTAGTTGACCAAGCTCAAAGGAGAGTGTTGAGGGGAGTTGATGACCTTGACTTTTTCATAGGAGATGAAGCCATCGATAAACCTACATATGCTACAAAGTGGCCGATACGACATGGAATCATTGAAGACTGGGATCTTATGGAAAGGTTCATGGAGCAAGTGGTTTTTAAATATCTTCGAGCTGAACCTGAGGACCATTATTTTTTAATGACAGAACCTCCACTCAATACACCAGAAAACAGAGAGTATCTTGCAGAAATTATGTTTGAATCATTTAACGTACCAGGACTCTACATTGCAGTTCAGGCAGTGCTGGCCTTGGCGGCATCTTGGACATCTCGACAAGTGGGTGAACGTACGTTAACGGGGATAGTCATTGACAGCGGAGATGGAGTCACCCATGTTATCCCAGTGGCAGAAGGTTATGTAATTGGAAGCTGCATCAAACACATCCCGATTGCAGGTAGAGATATTACGTATTTCATTCAACAGCTGCTAAGGGAGAGGGAGGTGGGAATCCCTCCTGAGCAGTCACTGGAGACCGCAAAAGCCATTAAGGAGAAATACTGTTACATTTGCCCCGATATAGTCAAGGAATTTGCCAAGTATGATGTGGATCCCCGGAAGTGGATCAAACAGTACACGGGTATCAATGCGATCAACCAGAAGAAGTTTGTTATAGACGTTGGTTACGAAAGATTCCTGGGACCTGAAATATTCTTTCACCCGGAGTTTGCCAACCCAGACTTTATGGAGTCCATCTCAGATGTTGTTGATGAAGTAATACAGAACTGCCCCATCGATGTGCGGCGCCCGCTGTATAAGAATGTCGTACTCTCAGGAGGCTCCACCATGTTCAGGGATTTCGGACGCCGACTGCAGAGGGATTTGAAGAGAGTGGTGGATGCTAGGCTGAGGCTCAGCGAGGAGCTCAGCGGCGGGAGGATCAAGCCGAAGCCTGTGGAGGTCCAGGTGGTCACGCATCACATGCAGCGCTACGCCGTGTGGTTCGGAGGCTCCATGCTGGCCTCGACTCCCGAGTTCTTTCAGGTCTGCCACACCAAGAAGGACTATGAAGAGTACGGGCCCAGCATCTGCCGCCACAACCCCGTCTTTGGAGTCATGTCCTAGTGTCTGCCTGAACGCGTCGTTCGATGGTGTCACGTTGGGGAACAAGTGTCCTTCAGAACCCAGAGAAGGCCGCCGTTCTGTAAATAGCGACGTCGGTGTTGCTGCCCAGCAGCGTGCTTGCATTGCCGGTGCATGAGGCGCGGCGCGGGCCCTTCAGTAAAAGCCATTTATCCGTGTGCCGACCGCTGTCTGCCAGCCTCCTCCTTCTCCCGCCCTCCTCACCCTCGCTCTCCCTCCTCCTCCTCCTCCGAGCTGCTAGCTGACAAATACAATTCTGAAGGAATCCAAATGTGACTTTGAAAATTGTTAGAGAAAACAACATTAGAAAATGGCGCAAAATCGTTAGGTCCCAGGAGAGAATGTGGGGGCGCAAACCCTTTTCCTCCCAGCCTATTTTTGTAAATAAAATGTTTAAACTTGAAATACAAATCGATGTTTATATTTCCTATCATTTTGTATTTTATGGTATTTGGTACAACTGGCTGATACTAAGCACGAATAGATATTGATGTTATGGAGTGCTGTAATCCAAAGTTTTTAATTGTGAGGCATGTTCTGATATGTTTATAGGCAAACAAATAAAACAGCAAACTTTTTTGCCACATGTTTGCTAGAAAATGATTATACTTTATTGGAGTGACATGAAGTTTGAACACTAAACAGTAATGTATGAGAATTACTACAGATACATGTATCTTTTAGTTTTTTTTGTTTGAACTTTCTGGAGCTGTTTTATAGAAGATGATGGTTTGTTGTCGGTGAGTGTTGGATGAAATACTTCCTTGCACCATTGTAATAAAAGCTGTTAGAATATTTGTAAATATC NM_001040135CAGCGGCGCTGCGGCGGCTCGCGGGAGACGCTGCGCGCGGGGCTAGCGGGCGGCGGAGCGGACGGCGACG102GGGCGCTCTCGGGCTGCCGGCGGGGCCGAGCGCCGCGCGTCCCGAGCATGGCAGGCTCCCTGCCTCCCTGCGTGGTGGACTGTGGCACCGGGTATACCAAGCTTGGCTACGCAGGCAACACTGAGCCCCAGTTCATTATTCCTTCATGTATTGCCATCAGAGAGTCAGCAAAGGTAGTTGACCAAGCTCAAAGGAGAGTGTTGAGGGGAGTTGATGACCTTGACTTTTTCATAGGAGATGAAGCCATCGATAAACCTACATATGCTACAAAGTGGCCGATACGACATGGAATCATTGAAGACTGGGATCTTATGGAAAGGTTCATGGAGCAAGTGGTTTTTAAATATCTTCGAGCTGAACCTGAGGACCATTATTTTTTAATGACAGAACCTCCACTCAATACACCAGAAAACAGAGAGTATCTTGCAGAAATTATGTTTGAATCATTTAACGTACCAGGACTCTACATTGCAGTTCAGGCAGTGCTGGCCTTGGCGGCATCTTGGACATCTCGACAAGTGGGTGAACGTACGTTAACGGGGATAGTCATTGACAGCGGAGATGGAGTCACCCATGTTATCCCAGTGGCAGAAGGTTATGTAATTGGAAGCTGCATCAAACACATCCCGATTGCAGGTAGAGATATTACGTATTTCATTCAACAGCTGCTAAGGGAGAGGGAGGTGGGAATCCCTCCTGAGCAGTCACTGGAGACCGCAAAAGCCATTAAGGAGAAATACTGTTACATTTGCCCCGATATAGTCAAGGAATTTGCCAAGTATGATGTGGATCCCCGGAAGTGGATCAAACAGTACACGGGTATCAATGCGATCAACCAGAAGAAGTTTGTTATAGACGTTGGTTACGAAAGATTCCTGGGACCTGAAATATTCTTTCACCCGGAGTTTGCCAACCCAGACTTTATGGAGTCCATCTCAGATGTTGTTGATGAAGTAATACAGAACTGCCCCATCGATGTGCGGCGCCCGCTGTATAAGCCCGAGTTCTTTCAGGTCTGCCACACCAAGAAGGACTATGAAGAGTACGGGCCCAGCATCTGCCGCCACAACCCCGTCTTTGGAGTCATGTCCTAGTGTCTGCCTGAACGCGTCGTTCGATGGTGTCACGTTGGGGAACAAGTGTCCTTCAGAACCCAGAGAAGGCCGCCGTTCTGTAAATAGCGACGTCGGTGTTGCTGCCCAGCAGCGTGCTTGCATTGCCGGTGCATGAGGCGCGGCGCGGGCCCTTCAGTAAAAGCCATTTATCCGTGTGCCGACCGCTGTCTGCCAGCCTCCTCCTTCTCCCGCCCTCCTCACCCTCGCTCTCCCTCCTCCTCCTCCTCCGAGCTGCTAGCTGACAAATACAATTCTGAAGGAATCCAAATGTGACTTTGAAAATTGTTAGAGAAAACAACATTAGAAAATGGCGCAAAATCGTTAGGTCCCAGGAGAGAATGTGGGGGCGCAAACCCTTTTCCTCCCAGCCTATTTTTGTAAATAAAATGTTTAAACTTGAAATACAAATCGATGTTTATATTTCCTATCATTTTGTATTTTATGGTATTTGGTACAACTGGCTGATACTAAGCACGAATAGATATTGATGTTATGGAGTGCTGTAATCCAAAGTTTTTAATTGTGAGGCATGTTCTGATATGTTTATAGGCAAACAAATAAAACAGCAAACTTTTTTGCCACATGTTTGCTAGAAAATGATTATACTTTATTGGAGTGACATGAAGTTTGAACACTAAACAGTAATGTATGAGAATTACTACAGATACATGTATCTTTTAGTTTTTTTTGTTTGAACTTTCTGGAGCTGTTTTATAGAAGATGATGGTTTGTTGTCGGTGAGTGTTGGATGAAATACTTCCTTGCACCATTGTAATAAAAGCTGTTAGAATATTTGTAAATATC NM_018685CTCGGCGCTGAAATTCAAATTTGAACGGCTGCAGAGGCCGAGTCCGTCACTGGAAGCCGAGAGGAGAGGA103CAGCTGGTTGTGGGAGAGTTCCCCCGCCTCAGACTCCTGGTTTTTTCCAGGAGACACACTGAGCTGAGACTCACTTTTCTCTTCCTGAATTTGAACCACCGTTTCCATCGTCTCGTAGTCCGACGCCTGGGGCGATGGATCCGTTTACGGAGAAACTGCTGGAGCGAACCCGTGCCAGGCGAGAGAATCTTCAGAGAAAAATGGCTGAGAGGCCCACAGCAGCTCCAAGGTCTATGACTCATGCTAAGCGAGCTAGACAGCCACTTTCAGAAGCAAGTAACCAGCAGCCCCTCTCTGGTGGTGAAGAGAAATCTTGTACAAAACCATCGCCATCAAAAAAACGCTGTTCTGACAACACTGAAGTAGAAGTTTCTAACTTGGAAAATAAACAACCAGTTGAGTCGACATCTGCAAAATCTTGTTCTCCAAGTCCTGTGTCTCCTCAGGTGCAGCCACAAGCAGCAGATACCATCAGTGATTCTGTTGCTGTCCCGGCATCACTGCTGGGCATGAGGAGAGGGCTGAACTCAAGATTGGAAGCAACTGCAGCCTCCTCAGTTAAAACACGTATGCAAAAACTTGCAGAGCAACGGCGCCGTTGGGATAATGATGATATGACAGATGACATTCCTGAAAGCTCACTCTTCTCACCAATGCCATCAGAGGAAAAGGCTGCTTCCCCTCCCAGACCTCTGCTTTCAAATGCCTCGGCAACTCCAGTTGGCAGAAGGGGCCGTCTGGCCAATCTTGCTGCAACTATTTGCTCCTGGGAAGATGATGTAAATCACTCATTTGCAAAACAAAACAGTGTACAAGAACAGCCTGGTACCGCTTGTTTATCCAAATTTTCCTCTGCAAGTGGAGCATCTGCTAGGATCAATAGCAGCAGTGTTAAGCAGGAAGCTACATTCTGTTCCCAAAGGGATGGCGATGCCTCTTTGAATAAAGCCCTATCCTCAAGTGCTGATGATGCGTCTTTGGTTAATGCCTCAATTTCCAGCTCTGTGAAAGCTACTTCTCCAGTGAAATCTACTACATCTATCACTGATGCTAAAAGTTGTGAGGGACAAAATCCTGAGCTACTTCCAAAAACTCCTATTAGTCCTCTGAAAACGGGGGTATCGAAACCAATTGTGAAGTCAACTTTATCCCAGACAGTTCCATCCAAGGGAGAATTAAGTAGAGAAATTTGTCTGCAATCTCAATCTAAAGACAAATCTACGACACCAGGAGGAACAGGAATTAAGCCTTTCCTGGAACGCTTTGGAGAGCGTTGTCAAGAACATAGCAAAGAAAGTCCAGCTCGTAGCACACCCCACAGAACCCCCATTATTACTCCAAATACAAAGGCCATCCAAGAAAGATTATTCAAGCAAGACACATCTTCATCTACTACCCATTTAGCACAACAGCTCAAGCAGGAACGTCAAAAAGAACTAGCATGTCTTCGTGGCCGATTTGACAAGGGCAATATATGGAGTGCAGAAAAAGGCGGAAACTCAAAAAGCAAACAACTAGAAACCAAACAGGAAACTCACTGTCAGAGCACTCCCCTCAAAAAACACCAAGGTGTTTCAAAAACTCAGTCACTTCCAGTAACAGAAAAGGTGACCGAAAACCAGATACCAGCCAAAAATTCTAGTACAGAACCTAAAGGTTTCACTGAATGCGAAATGACGAAATCTAGCCCTTTGAAAATAACATTGTTTTTAGAAGAGGACAAATCCTTAAAAGTAACATCAGACCCAAAGGTTGAGCAGAAAATTGAAGTGATACGTGAAATTGAGATGAGTGTGGATGATGATGATATCAATAGTTCGAAAGTAATTAATGACCTCTTCAGTGATGTCCTAGAGGAAGGTGAACTAGATATGGAGAAGAGCCAAGAGGAGATGGATCAAGCATTAGCAGAAAGCAGCGAAGAACAGGAAGATGCACTGAATATCTCCTCAATGTCTTTACTTGCACCATTGGCACAAACAGTTGGTGTGGTAAGTCCAGAGAGTTTAGTGTCCACACCTAGACTGGAATTGAAAGACACCAGCAGAAGTGATGAAAGTCCAAAACCAGGAAAATTCCAAAGAACTCGTGTCCCTCGAGCTGAATCTGGTGATAGCCTTGGTTCTGAAGATCGTGATCTTCTTTACAGCATTGATGCATATAGATCTCAAAGATTCAAAGAAACAGAACGTCCATCAATAAAGCAGGTGATTGTTCGGAAGGAAGATGTTACTTCAAAACTGGATGAAAAAAATAATGCCTTTCCTTGTCAAGTTAATATCAAACAGAAAATGCAGGAACTCAATAACGAAATAAATATGCAACAGACAGTGATCTATCAAGCTAGCCAGGCTCTTAACTGCTGTGTTGATGAAGAACATGGAAAAGGGTCCCTAGAAGAAGCTGAAGCAGAAAGACTTCTTCTAATTGCAACTGGGAAGAGAACACTTTTGATTGATGAATTGAATAAATTGAAGAACGAAGGACCTCAGAGGAAGAATAAGGCTAGTCCCCAAAGTGAATTTATGCCATCCAAAGGATCAGTTACTTTGTCAGAAATCCGCTTGCCTCTAAAAGCAGATTTTGTCTGCAGTACGGTTCAGAAACCAGATGCAGCAAATTACTATTACTTAATTATACTAAAAGCAGGAGCTGAAAATATGGTAGCCACACCATTAGCAAGTACTTCAAACTCTCTTAACGGTGATGCTCTGACATTCACTACTACATTTACTCTGCAAGATGTATCCAATGACTTTGAAATAAATATTGAAGTTTACAGCTTGGTGCAAAAGAAAGATCCCTCAGGCCTTGATAAGAAGAAAAAAACATCCAAGTCCAAGGCTATTACTCCAAAGCGACTCCTCACATCTATAACCACAAAAAGCAACATTCATTCTTCAGTCATGGCCAGTCCAGGAGGTCTTAGTGCTGTGCGAACCAGCAACTTCGCCCTTGTTGGATCTTACACATTATCATTGTCTTCAGTAGGAAATACTAAGTTTGTTCTGGACAAGGTCCCCTTTTTATCTTCTTTGGAAGGTCATATTTATTTAAAAATAAAATGTCAAGTGAATTCCAGTGTTGAAGAAAGAGGTTTTCTAACCATATTTGAAGATGTTAGTGGTTTTGGTGCCTGGCATCGAAGATGGTGTGTTCTTTCTGGAAACTGTATATCTTATTGGACTTATCCAGATGATGAGAAACGCAAGAATCCCATAGGAAGGATAAATCTGGCTAATTGTACCAGTCGTCAGATAGAACCAGCCAACAGAGAATTTTGTGCAAGACGCAACACTTTTGAATTAATTACTGTCCGACCACAAAGAGAAGATGACCGAGAGACTCTTGTCAGCCAATGCAGGGACACACTCTGTGTTACCAAGAACTGGCTGTCTGCAGATACTAAAGAAGAGCGGGATCTCTGGATGCAAAAACTCAATCAAGTTCTTGTTGATATTCGCCTCTGGCAACCTGATGCTTGCTACAAACCTATTGGAAAGCCTTAAACCGGGAAATTTCCATGCTATCTAGAGGTTTTTGATGTCATCTTAAGAAACACACTTAAGAGCATCAGATTTACTGATTGCATTTTATGCTTTAAGTACGAAAGGGTTTGTGCCAATATTCACTACGTATTATGCAGTATTTATATCTTTTGTATGTAAAACTTTAACTGATTTCTGTCATTCATCAATGAGTAGAAGTAAATACATTATAGTTGATTTTGCTAAATCTTAATTTAAAAGCCTCATTTTCCTAGAAATCTAATTATTCAGTTATTCATGACAATATTTTTTTAAAAGTAAGAAATTCTGAGTTGTCTTCTTGGAGCTGTAGGTCTTGAAGCAGCAACGTCTTTCAGGGGTTGGAGACAGAAACCCATTCTCCAATCTCAGTAGTTTTTTCGAAAGGCTGTGATCATTTATTGATCGTGATATGACTTGTTACTAGGGTACTGAAAAAAATGTCTAAGGCCTTTACAGAAACATTTTTAGTAATGAGGATGAGAACTTTTTCAAATAGCAAATATATATTGGCTTAAAGCATGAGGCTGTCTTCAGAAAAGTGATGTGGACATAGGAGGCAATGTGTGAGACTTGGGGGTTCAATATTTTATATAGAAGAGTTAATAAGCACATGGTTTACATTTACTCAGCTACTATATATGCAGTGTGGTGCACATTTTCACAGAATTCTGGCTTCATTAAGATCATTATTTTTGCTGCGTAGCTTACAGACTTAGCATATTAGTTTTTTCTACTCCTACAAGTGTAAATTGAAAAATCTTTATATTAAAAAAGTAAACTGTTATGAAGCTGCTATGTACTAATAATACTTTGCTTGCCAAAGTGTTTGGGTTTTGTTGTTGTTTGTTTGTTTGTTTGTTTTTGGTTCATGAACAACAGTGTCTAGAAACCCATTTTGAAAGTGGAAAATTATTAAGTCACCTATCACCTTTAAACGCCTTTTTTTAAAATTATAAAATATTGTAAAGCAGGGTCTCAACTTTTAAATACACTTTGAACTTCTTCTCTGAATTATTAAAGTTCTTTATGACCTCATTTATAAACACTAAATTCTGTCACCTCCTGTCATTTTATTTTTTATTCATTCAAATGTATTTTTTCTTGTGCATATTATAAAAATATATTTTATGAGCTCTTACTCAAATAAATACCTGTAAATGTCTAAAGGAAAAAAAAAAAAAAAAAA NM_004323AGGCCGGGGCGGGGCTGGGAAGTAGTCGGGCGGGGTTGTGAGACGCCGCGCTCAGCTTCCATCGCTGGGC104GGTCAACAAGTGCGGGCCTGGCTCAGCGCGGGGGGGCGCGGAGACCGCGAGGCGACCGGGAGCGGCTGGGTTCCCGGCTGCGCGCCCTTCGGCCAGGCCGGGAGCCGCGCCAGTCGGAGCCCCCGGCCCAGCGTGGTCCGCCTCCCTCTCGGCGTCCACCTGCCCGGAGTACTGCCAGCGGGCATGACCGACCCACCAGGGGCGCCGCCGCCGGCGCTCGCAGGCCGCGGATGAAGAAGAAAACCCGGCGCCGCTCGACCCGGAGCGAGGAGTTGACCCGGAGCGAGGAGTTGACCCTGAGTGAGGAAGCGACCTGGAGTGAAGAGGCGACCCAGAGTGAGGAGGCGACCCAGGGCGAAGAGATGAATCGGAGCCAGGAGGTGACCCGGGACGAGGAGTCGACCCGGAGCGAGGAGGTGACCAGGGAGGAAATGGCGGCAGCTGGGCTCACCGTGACTGTCACCCACAGCAATGAGAAGCACGACCTTCATGTTACCTCCCAGCAGGGCAGCAGTGAACCAGTTGTCCAAGACCTGGCCCAGGTTGTTGAAGAGGTCATAGGGGTTCCACAGTCTTTTCAGAAACTCATATTTAAGGGAAAATCTCTGAAGGAAATGGAAACACCGTTGTCAGCACTTGGAATACAAGATGGTTGCCGGGTCATGTTAATTGGGAAAAAGAACAGTCCACAGGAAGAGGTTGAACTAAAGAAGTTGAAACATTTGGAGAAGTCTGTGGAGAAGATAGCTGACCAGCTGGAAGAGTTGAATAAAGAGCTTACTGGAATCCAGCAGGGTTTTCTGCCCAAGGATTTGCAAGCTGAAGCTCTCTGCAAACTTGATAGGAGAGTAAAAGCCACAATAGAGCAGTTTATGAAGATCTTGGAGGAGATTGACACACTGATCCTGCCAGAAAATTTCAAAGACAGTAGATTGAAAAGGAAAGGCTTGGTAAAAAAGGTTCAGGCATTCCTAGCCGAGTGTGACACAGTGGAGCAGAACATCTGCCAGGAGACTGAGCGGCTGCAGTCTACAAACTTTGCCCTGGCCGAGTGAGGTGTAGCAGAAAAAGGCTGTGCTGCCCTGAAGAATGGCGCCACCAGCTCTGCCGTCTCTGGAGCGGAATTTACCTGATTTCTTCAGGGCTGCTGGGGGCAACTGGCCATTTGCCAATTTTCCTACTCTCACACTGGTTCTCAATGAAAAATAGTGTCTTTGTGATTTTGAGTAAAGCTCCTATCTGTTTTCTCCTTCTGTCTCTGTGGTTGTACTGTCCAGCAATCCACCTTTTCTGGAGAGGGCCACCTCTGCCCAAATTTTCCCAGCTGTTTGGACCTCTGGGTGCTTTCTTTGGGCTGGTGAGAGCTCTAATTTGCCTTGGGCCAGTTTCAGGTTTATAGGCCCCCTCAGTCTTCAGATACATGAGGGCTTCTTTGCTCTTGTGATCGTGTAGTCCCATAGCTGTAAAACCAGAATCACCAGGAGGTTGCACCTAGTCAGGAATATTGGGAATGGCCTAGAACAAGGTGTTTGGCACATAAGTAGACCACTTATCCCTCATTGTGACCTAATTCCAGAGCATCTGGCTGGGTTGTTGGGTTCTAGACTTTGTCCTCACCTCCCAGTGACCCTGACTAGCCACAGGCCATGAGATACCAGGGGGCCGTTCCTTGGATGGAGCCTGTGGTTGATGCAAGGCTTCCTTGTCCCCAAGCAAGTCTTCAGAAGGTTAGAACCCAGTGTTGACTGAGTCTGTGCTTGAAACCAGGCCAGAGCCATGGATTAGGAAGGGCAAAGAGAAGGCACCAGAATGAGTAAAGCAGGCAGGTGGTGAAGCCAACCATAAACTTCTCAGGAGTGACATGTGCTTCCTTCAAAGGCATTTTTGTTAACCATATCCTTCTGAGTTCTATGTTTCCTTCACAGCTGTTCTATCCATTTTGTGGACTGTCCCCCACCCCCACCCCATCATTGTTTTTAAAAAATTAAGGCCTGGCGCAGCAGCTCATGCCTATAATCCCAGCACTTTGGGAGGCTGAGGCGGGCGGATCACTTGAGGCCAGGAGTTTGAGACCAGCCCAGGCAACATAGCAAAACCCCATTCTGCTTTAAAAAAAAAAAAAAAAAAAATTAGCTTGGCGTAGTGGCATGTGCCTATAATCCCAGCTACTGGGGAGGCTGAGGCACAAGAATCATTTGAACCTGGGAGGTAGAGGTTGCTGTGAGCCGAGATTACGCCCCTGCACTCCAGCCTGGGTCACAGAGTGAGACTCCATCTCAGAAAAAAAAAAAATTGAGTCAGGTGCAGTAGCTCCTTCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCTAGAGGATCACTTGAGCCCAGGAGTTTGAGTCTAGTCTGGGCAACATAGCAAGACCCCATCTCTAAAATTTAAGTAAGTAAAAGTAGATAAATAAAAAGAAAAAAAAACTGTTTATGTGCTCATCATAAAGTAGAAGAGTGGTTTGCTTTTTTTTTTTTTTTTGGATTAATGAGGAAATCATTCTGTGGCTCTAGTCATAATTTATGCTTAATAACATTGATAGTAGCCCTTTGCGCTATAACTCTACCTAAAGACTCACATCATTTGGCAGAGAGAGAGTCGTTGAAGTCCCAGGAATTCAGGACTGGGCAGGTTAAGACCTCAGACAAGGTAGTAGAGGTAGACTTGTGGACAAGGCTCGGGTCCCAGCCCACCGCACCCCAACTTTAATCAGAGTGGTTCACTATTGATCTATTTTTGTGTGATAGCTGTGTGGCGTGGGCCACAACATTTAATGAGAAGTTACTGTGCACCAAACTGCCGAACACCATTCTAAACTATTCATATATATTAGTCATTTAATTCTTACATAACTTGAGAGGTAGACAGATATCCTTATTTTAGAGATGAGGAAACCAAGAGAACTTAGGTCATTAGCGCAAGGTTGTAGAGTAAGCGGCAAAGCCAAGACACAAAGCTGGGTGGTTTGGTTTCAGAGCCAGTGCTTTTCCCCTCTACTGTACTGCCTCTCAACCAACACAGGGTTGCACAGGCCCATTCTCTGATTTTTTTCCTCTTGTCCTCTGCCTCTCCCTCTAGCTCCCACTTCCTCTCTGCTCTAGTTCATTTTCTTTAGAGCAGCCCGAGTGATCATGAAGTGCAAATCTTGCCATGTCAGTCCCCTGCTTAGAACCCTCCAATGGCTCACTTTCTCTTTAGGCAAAAGTCTTTACCCCATGCCTTCTCCCATCTCATCTCAACCCCCTCATTTGTTGGCTGTCTGCTGTCAGCCACTCTTCTTTCAGGTCCTCAGATGCACTGCACCCTCTCCTGCCTGGGGGTCTTTGCTCCTGCTACTACCTCTGCTTGAACAGCTCCTCACCTTCCTTCCTCCAACCCTACCCTTGTATAGGTGACTTTTGTTCATCCTTCAGAATTCAACTCACATGTCTCTTGCATGGAGAACCCTCACCTACTGTGTTGAGACCCTGTCCAGCCCCCAGGTGGGATCCTCTCTCGACTTCCCATACATTTCTTTCACAGCATTTACATAGTCCATGATAGTTTACTTGTGGGATTATTTGGTTAATCTTTGCCTTTAACACCAGGGTTCCTTGGGTGAAGGAGCTTCTTTATCTTGGTAACAGCATTATTTCAAGCATAACTTGTAATATAGTTATATTACATATATAACATATATATATATAACATAACATATATAACATATATAACAAGCATAACTTGTTATATAGTCTTGTATATAGTAAGACCTCAATAAATATTTGGAGAACAAAAAAAAAAAAAAA NM_000633TTTCTGTGAAGCAGAAGTCTGGGAATCGATCTGGAAATCCTCCTAATTTTTACTCCCTCTCCCCGCGACT105CCTGATTCATTGGGAAGTTTCAAATCAGCTATAACTGGAGAGTGCTGAAGATTGATGGGATCGTTGCCTTATGCATTTGTTTTGGTTTTACAAAAAGGAAACTTGACAGAGGATCATGCTGTACTTAAAAAATACAACATCACAGAGGAAGTAGACTGATATTAACAATACTTACTAATAATAACGTGCCTCATGAAATAAAGATCCGAAAGGAATTGGAATAAAAATTTCCTGCATCTCATGCCAAGGGGGAAACACCAGAATCAAGTGTTCCGCGTGATTGAAGACACCCCCTCGTCCAAGAATGCAAAGCACATCCAATAAAATAGCTGGATTATAACTCCTCTTCTTTCTCTGGGGGCCGTGGGGTGGGAGCTGGGGCGAGAGGTGCCGTTGGCCCCCGTTGCTTTTCCTCTGGGAAGGATGGCGCACGCTGGGAGAACAGGGTACGATAACCGGGAGATAGTGATGAAGTACATCCATTATAAGCTGTCGCAGAGGGGCTACGAGTGGGATGCGGGAGATGTGGGCGCCGCGCCCCCGGGGGCCGCCCCCGCACCGGGCATCTTCTCCTCCCAGCCCGGGCACACGCCCCATCCAGCCGCATCCCGGGACCCGGTCGCCAGGACCTCGCCGCTGCAGACCCCGGCTGCCCCCGGCGCCGCCGCGGGGCCTGCGCTCAGCCCGGTGCCACCTGTGGTCCACCTGACCCTCCGCCAGGCCGGCGACGACTTCTCCCGCCGCTACCGCCGCGACTTCGCCGAGATGTCCAGCCAGCTGCACCTGACGCCCTTCACCGCGCGGGGACGCTTTGCCACGGTGGTGGAGGAGCTCTTCAGGGACGGGGTGAACTGGGGGAGGATTGTGGCCTTCTTTGAGTTCGGTGGGGTCATGTGTGTGGAGAGCGTCAACCGGGAGATGTCGCCCCTGGTGGACAACATCGCCCTGTGGATGACTGAGTACCTGAACCGGCACCTGCACACCTGGATCCAGGATAACGGAGGCTGGGATGCCTTTGTGGAACTGTACGGCCCCAGCATGCGGCCTCTGTTTGATTTCTCCTGGCTGTCTCTGAAGACTCTGCTCAGTTTGGCCCTGGTGGGAGCTTGCATCACCCTGGGTGCCTATCTGGGCCACAAGTGAAGTCAACATGCCTGCCCCAAACAAATATGCAAAAGGTTCACTAAAGCAGTAGAAATAATATGCATTGTCAGTGATGTACCATGAAACAAAGCTGCAGGCTGTTTAAGAAAAAATAACACACATATAAACATCACACACACAGACAGACACACACACACACAACAATTAACAGTCTTCAGGCAAAACGTCGAATCAGCTATTTACTGCCAAAGGGAAATATCATTTATTTTTTACATTATTAAGAAAAAAAGATTTATTTATTTAAGACAGTCCCATCAAAACTCCTGTCTTTGGAAATCCGACCACTAATTGCCAAGCACCGCTTCGTGTGGCTCCACCTGGATGTTCTGTGCCTGTAAACATAGATTCGCTTTCCATGTTGTTGGCCGGATCACCATCTGAAGAGCAGACGGATGGAAAAAGGACCTGATCATTGGGGAAGCTGGCTTTCTGGCTGCTGGAGGCTGGGGAGAAGGTGTTCATTCACTTGCATTTCTTTGCCCTGGGGGCTGTGATATTAACAGAGGGAGGGTTCCTGTGGGGGGAAGTCCATGCCTCCCTGGCCTGAAGAAGAGACTCTTTGCATATGACTCACATGATGCATACCTGGTGGGAGGAAAAGAGTTGGGAACTTCAGATGGACCTAGTACCCACTGAGATTTCCACGCCGAAGGACAGCGATGGGAAAAATGCCCTTAAATCATAGGAAAGTATTTTTTTAAGCTACCAATTGTGCCGAGAAAAGCATTTTAGCAATTTATACAATATCATCCAGTACCTTAAGCCCTGATTGTGTATATTCATATATTTTGGATACGCACCCCCCAACTCCCAATACTGGCTCTGTCTGAGTAAGAAACAGAATCCTCTGGAACTTGAGGAAGTGAACATTTCGGTGACTTCCGCATCAGGAAGGCTAGAGTTACCCAGAGCATCAGGCCGCCACAAGTGCCTGCTTTTAGGAGACCGAAGTCCGCAGAACCTGCCTGTGTCCCAGCTTGGAGGCCTGGTCCTGGAACTGAGCCGGGGCCCTCACTGGCCTCCTCCAGGGATGATCAACAGGGCAGTGTGGTCTCCGAATGTCTGGAAGCTGATGGAGCTCAGAATTCCACTGTCAAGAAAGAGCAGTAGAGGGGTGTGGCTGGGCCTGTCACCCTGGGGCCCTCCAGGTAGGCCCGTTTTCACGTGGAGCATGGGAGCCACGACCCTTCTTAAGACATGTATCACTGTAGAGGGAAGGAACAGAGGCCCTGGGCCCTTCCTATCAGAAGGACATGGTGAAGGCTGGGAACGTGAGGAGAGGCAATGGCCACGGCCCATTTTGGCTGTAGCACATGGCACGTTGGCTGTGTGGCCTTGGCCCACCTGTGAGTTTAAAGCAAGGCTTTAAATGACTTTGGAGAGGGTCACAAATCCTAAAAGAAGCATTGAAGTGAGGTGTCATGGATTAATTGACCCCTGTCTATGGAATTACATGTAAAACATTATCTTGTCACTGTAGTTTGGTTTTATTTGAAAACCTGACAAAAAAAAAGTTCCAGGTGTGGAATATGGGGGTTATCTGTACATCCTGGGGCATTAAAAAAAAAATCAATGGTGGGGAACTATAAAGAAGTAACAAAAGAAGTGACATCTTCAGCAAATAAACTAGGAAATTTTTTTTTCTTCCAGTTTAGAATCAGCCTTGAAACATTGATGGAATAACTCTGTGGCATTATTGCATTATATACCATTTATCTGTATTAACTTTGGAATGTACTCTGTTCAATGTTTAATGCTGTGGTTGATATTTCGAAAGCTGCTTTAAAAAAATACATGCATCTCAGCGTTTTTTTGTTTTTAATTGTATTTAGTTATGGCCTATACACTATTTGTGAGCAAAGGTGATCGTTTTCTGTTTGAGATTTTTATCTCTTGATTCTTCAAAAGCATTCTGAGAAGGTGAGATAAGCCCTGAGTCTCAGCTACCTAAGAAAAACCTGGATGTCACTGGCCACTGAGGAGCTTTGTTTCAACCAAGTCATGTGCATTTCCACGTCAACAGAATTGTTTATTGTGACAGTTATATCTGTTGTCCCTTTGACCTTGTTTCTTGAAGGTTTCCTCGTCCCTGGGCAATTCCGCATTTAATTCATGGTATTCAGGATTACATGCATGTTTGGTTAAACCCATGAGATTCATTCAGTTAAAAATCCAGATGGCAAATGACCAGCAGATTCAAATCTATGGTGGTTTGACCTTTAGAGAGTTGCTTTACGTGGCCTGTTTCAACACAGACCCACCCAGAGCCCTCCTGCCCTCCTTCCGCGGGGGCTTTCTCATGGCTGTCCTTCAGGGTCTTCCTGAAATGCAGTGGTGCTTACGCTCCACCAAGAAAGCAGGAAACCTGTGGTATGAAGCCAGACCTCCCCGGCGGGCCTCAGGGAACAGAATGATCAGACCTTTGAATGATTCTAATTTTTAAGCAAAATATTATTTTATGAAAGGTTTACATTGTCAAAGTGATGAATATGGAATATCCAATCCTGTGCTGCTATCCTGCCAAAATCATTTTAATGGAGTCAGTTTGCAGTATGCTCCACGTGGTAAGATCCTCCAAGCTGCTTTAGAAGTAACAATGAAGAACGTGGACGTTTTTAATATAAAGCCTGTTTTGTCTTTTGTTGTTGTTCAAACGGGATTCACAGAGTATTTGAAAAATGTATATATATTAAGAGGTCACGGGGGCTAATTGCTGGCTGGCTGCCTTTTGCTGTGGGGTTTTGTTACCTGGTTTTAATAACAGTAAATGTGCCCAGCCTCTTGGCCCCAGAACTGTACAGTATTGTGGCTGCACTTGCTCTAAGAGTAGTTGATGTTGCATTTTCCTTATTGTTAAAAACATGTTAGAAGCAATGAATGTATATAAAAGCCTCAACTAGTCATTTTTTTCTCCTCTTCTTTTTTTTCATTATATCTAATTATTTTGCAGTTGGGCAACAGAGAACCATCCCTATTTTGTATTGAAGAGGGATTCACATCTGCATCTTAACTGCTCTTTATGAATGAAAAAACAGTCCTCTGTATGTACTCCTCTTTACACTGGCCAGGGTCAGAGTTAAATAGAGTATATGCACTTTCCAAATTGGGGACAAGGGCTCTAAAAAAAGCCCCAAAAGGAGAAGAACATCTGAGAACCTCCTCGGCCCTCCCAGTCCCTCGCTGCACAAATACTCCGCAAGAGAGGCCAGAATGACAGCTGACAGGGTCTATGGCCATCGGGTCGTCTCCGAAGATTTGGCAGGGGCAGAAAACTCTGGCAGGCTTAAGATTTGGAATAAAGTCACAGAATTAAGGAAGCACCTCAATTTAGTTCAAACAAGACGCCAACATTCTCTCCACAGCTCACTTACCTCTCTGTGTTCAGATGTGGCCTTCCATTTATATGTGATCTTTGTTTTATTAGTAAATGCTTATCATCTAAAGATGTAGCTCTGGCCCAGTGGGAAAAATTAGGAAGTGATTATAAATCGAGAGGAGTTATAATAATCAAGATTAAATGTAAATAATCAGGGCAATCCCAACACATGTCTAGCTTTCACCTCCAGGATCTATTGAGTGAACAGAATTGCAAATAGTCTCTATTTGTAATTGAACTTATCCTAAAACAAATAGTTTATAAATGTGAACTTAAACTCTAATTAATTCCAACTGTACTTTTAAGGCAGTGGCTGTTTTTAGACTTTCTTATCACTTATAGTTAGTAATGTACACCTACTCTATCAGAGAAAAACAGGAAAGGCTCGAAATACAAGCCATTCTAAGGAAATTAGGGAGTCAGTTGAAATTCTATTCTGATCTTATTCTGTGGTGTCTTTTGCAGCCCAGACAAATGTGGTTACACACTTTTTAAGAAATACAATTCTACATTGTCAAGCTTATGAAGGTTCCAATCAGATCTTTATTGTTATTCAATTTGGATCTTTCAGGGATTTTTTTTTTAAATTATTATGGGACAAAGGACATTTGTTGGAGGGGTGGGAGGGAGGAAGAATTTTTAAATGTAAAACATTCCCAAGTTTGGATCAGGGAGTTGGAAGTTTTCAGAATAACCAGAACTAAGGGTATGAAGGACCTGTATTGGGGTCGATGTGATGCCTCTGCGAAGAACCTTGTGTGACAAATGAGAAACATTTTGAAGTTTGTGGTACGACCTTTAGATTCCAGAGACATCAGCATGGCTCAAAGTGCAGCTCCGTTTGGCAGTGCAATGGTATAAATTTCAAGCTGGATATGTCTAATGGGTATTTAAACAATAAATGTGCAGTTTTAACTAACAGGATATTTAATGACAACCTTCTGGTTGGTAGGGACATCTGTTTCTAAATGTTTATTATGTACAATACAGAAAAAAATTTTATAAAATTAAGCAATGTGAAACTGAATTGGAGAGTGATAATACAAGTCCTTTAGTCTTACCCAGTGAATCATTCTGTTCCATGTCTTTGGACAACCATGACCTTGGACAATCATGAAATATGCATCTCACTGGATGCAAAGAAAATCAGATGGAGCATGAATGGTACTGTACCGGTTCATCTGGACTGCCCCAGAAAAATAACTTCAAGCAAACATCCTATCAACAACAAGGTTGTTCTGCATACCAAGCTGAGCACAGAAGATGGGAACACTGGTGGAGGATGGAAAGGCTCGCTCAATCAAGAAAATTCTGAGACTATTAATAAATAAGACTGTAGTGTAGATACTGAGTAAATCCATGCACCTAAACCTTTTGGAAAATCTGCCGTGGGCCCTCCAGATAGCTCATTTCATTAAGTTTTTCCCTCCAAGGTAGAATTTGCAAGAGTGACAGTGGATTGCATTTCTTTTGGGGAAGCTTTCTTTTGGTGGTTTTGTTTATTATACCTTCTTAAGTTTTCAACCAAGGTTTGCTTTTGTTTTGAGTTACTGGGGTTATTTTTGTTTTAAATAAAAATAAGTGTACAATAAGTGTTTTTGTATTGAAAGCTTTTGTTATCAAGATTTTCATACTTTTACCTTCCATGGCTCTTTTTAAGATTGATACTTTTAAGAGGTGGCTGATATTCTGCAACACTGTACACATAAAAAATACGGTAAGGATACTTTACATGGTTAAGGTAAAGTAAGTCTCCAGTTGGCCACCATTAGCTATAATGGCACTTTGTTTGTGTTGTTGGAAAAAGTCACATTGCCATTAAACTTTCCTTGTCTGTCTAGTTAATATTGTGAAGAAAAATAAAGTACAGTGTGAGATACTG NM_001012271CCCAGAAGGCCGCGGGGGGTGGACCGCCTAAGAGGGCGTGCGCTCCCGACATGCCCCGCGGCGCGCCATT106AACCGCCAGATTTGAATCGCGGGACCCGTTGGCAGAGGTGGCGGCGGCGGCATGGGTGCCCCGACGTTGCCCCCTGCCTGGCAGCCCTTTCTCAAGGACCACCGCATCTCTACATTCAAGAACTGGCCCTTCTTGGAGGGCTGCGCCTGCACCCCGGAGCGGATGGCCGAGGCTGGCTTCATCCACTGCCCCACTGAGAACGAGCCAGACTTGGCCCAGTGTTTCTTCTGCTTCAAGGAGCTGGAAGGCTGGGAGCCAGATGACGACCCCATTGGGCCGGGCACGGTGGCTTACGCCTGTAATACCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACGAGAGAGGAACATAAAAAGCATTCGTCCGGTTGCGCTTTCCTTTCTGTCAAGAAGCAGTTTGAAGAATTAACCCTTGGTGAATTTTTGAAACTGGACAGAGAAAGAGCCAAGAACAAAATTGCAAAGGAAACCAACAATAAGAAGAAAGAATTTGAGGAAACTGCGGAGAAAGTGCGCCGTGCCATCGAGCAGCTGGCTGCCATGGATTGAGGCCTCTGGCCGGAGCTGCCTGGTCCCAGAGTGGCTGCACCACTTCCAGGGTTTATTCCCTGGTGCCACCAGCCTTCCTGTGGGCCCCTTAGCAATGTCTTAGGAAAGGAGATCAACATTTTCAAATTAGATGTTTCAACTGTGCTCTTGTTTTGTCTTGAAAGTGGCACCAGAGGTGCTTCTGCCTGTGCAGCGGGTGCTGCTGGTAACAGTGGCTGCTTCTCTCTCTCTCTCTCTTTTTTGGGGGCTCATTTTTGCTGTTTTGATTCCCGGGCTTACCAGGTGAGAAGTGAGGGAGGAAGAAGGCAGTGTCCCTTTTGCTAGAGCTGACAGCTTTGTTCGCGTGGGCAGAGCCTTCCACAGTGAATGTGTCTGGACCTCATGTTGTTGAGGCTGTCACAGTCCTGAGTGTGGACTTGGCAGGTGCCTGTTGAATCTGAGCTGCAGGTTCCTTATCTGTCACACCTGTGCCTCCTCAGAGGACAGTTTTTTTGTTGTTGTGTTTTTTTGTTTTTTTTTTTTTGGTAGATGCATGACTTGTGTGTGATGAGAGAATGGAGACAGAGTCCCTGGCTCCTCTACTGTTTAACAACATGGCTTTCTTATTTTGTTTGAATTGTTAATTCACAGAATAGCACAAACTACAATTAAAACTAAGCACAAAGCCATTCTAAGTCATTGGGGAAACGGGGTGAACTTCAGGTGGATGAGGAGACAGAATAGAGTGATAGGAAGCGTCTGGCAGATACTCCTTTTGCCACTGCTGTGTGATTAGACAGGCCCAGTGAGCCGCGGGGCACATGCTGGCCGCTCCTCCCTCAGAAAAAGGCAGTGGCCTAAATCCTTTTTAAATGACTTGGCTCGATGCTGTGGGGGACTGGCTGGGCTGCTGCAGGCCGTGTGTCTGTCAGCCCAACCTTCACATCTGTCACGTTCTCCACACGGGGGAGAGACGCAGTCCGCCCAGGTCCCCGCTTTCTTTGGAGGCAGCAGCTCCCGCAGGGCTGAAGTCTGGCGTAAGATGATGGATTTGATTCGCCCTCCTCCCTGTCATAGAGCTGCAGGGTGGATTGTTACAGCTTCGCTGGAAACCTCTGGAGGTCATCTCGGCTGTTCCTGAGAAATAAAAAGCCTGTCATTTCAAACACTGCTGTGGACCCTACTGGGTTTTTAAAATATTGTCAGTTTTTCATCGTCGTCCCTAGCCTGCCAACAGCCATCTGCCCAGACAGCCGCAGTGAGGATGAGCGTCCTGGCAGAGACGCAGTTGTCTCTGGGCGCTTGCCAGAGCCACGAACCCCAGACCTGTTTGTATCATCCGGGCTCCTTCCGGGCAGAAACAACTGAAAATGCACTTCAGACCCACTTATTTCTGCCACATCTGAGTCGGCCTGAGATAGACTTTTCCCTCTAAACTGGGAGAATATCACAGTGGTTTTTGTTAGCAGAAAATGCACTCCAGCCTCTGTACTCATCTAAGCTGCTTATTTTTGATATTTGTGTCAGTCTGTAAATGGATACTTCACTTTAATAACTGTTGCTTAGTAATTGGCTTTGTAGAGAAGCTGGAAAAAAATGGTTTTGTCTTCAACTCCTTTGCATGCCAGGCGGTGATGTGGATCTCGGCTTCTGTGAGCCTGTGCTGTGGGCAGGGCTGAGCTGGAGCCGCCCCTCTCAGCCCGCCTGCCACGGCCTTTCCTTAAAGGCCATCCTTAAAACCAGACCCTCATGGCTACCAGCACCTGAAAGCTTCCTCGACATCTGTTAATAAAGCCGTAGGCCCTTGTCTAAGTGCAACCGCCTAGACTTTCTTTCAGATACATGTCCACATGTCCATTTTTCAGGTTCTCTAAGTTGGAGTGGAGTCTGGGAAGGGTTGTGAATGAGGCTTCTGGGCTATGGGTGAGGTTCCAATGGCAGGTTAGAGCCCCTCGGGCCAACTGCCATCCTGGAAAGTAGAGACAGCAGTGCCCGCTGCCCAGAAGAGACCAGCAAGCCAAACTGGAGCCCCCATTGCAGGCTGTCGCCATGTGGAAAGAGTAACTCACAATTGCCAATAAAGTCTCATGTGGTTTTATCTAAAAAAAAAAAAAAAAAAAAAAAAABX647539AATGAGGGTATTTATAAACTACTTAAATTATAAAAAGAATGAGACATCAGACTTACAGTTTTGGATACTA107ATTTTTTTCACTTAACGTTCATTATGTGATAGGAGTTTTCCATCCTATTATACCGCTGTGCGATCTGATCTTGGGCACGTTAACCAACCTCTTGTTGCCTCGATTTTCTCACCTGTAAAAGTGGGGGTAATCATAATGCTTACTTAGTAGGATAGCCCTGAAGAATAAGTGACTTAGCGAACATAAATAGCTTACAATAGGGTTTTCAGCATGGGAAGGATTCAGTAAATGTTAGCTGTCATCATCACCACCTACAAAGGAAGCAATACTGTGCTGAAAGTTTTTCCATCATTAATGTAATTTCTATAGTACGATTCCCAAGAAGATATTAAAATTATGGAAATAAAGGTATTGGTATATTCCTAATTATTTCCTAAAAGATTGTATTGATAAATATGCTCATCCTTCCCTTAACGGGATGCATTCCAGAAAAACAAGTCAAATGTTAGACAAAGTATCAGAAGGGAAATTCTGTAGCCAGAGAGCTAAAAATTACAATAGGGTCTCTAATTATACTTCAACTTTTTTAGGAATAATTCTCAGTGTGTTTTCCCACATTTCATATGTAATTTTTTTTTTTTTTTTTTTTTGAGACAGAGCCTCGCCCTGTCACCAGGCTGGAGTACAGTGGCGCGATCTCGGCTCACTGCAACTTCCACCTGCTGGGTTCAAGCAATTCTTCTGACCTCAGGTGATCCACCCGCCTCGGCCTCCCAAAGTGCTGGGATTATAACAGGCGTGGCATGAGTCACCGCGCCCGGCCGATCTTTACTTTTTTATTCTTTGTACCCCCTGCCTATCCAGTTAGCATGTGATTAAAGTCAAAGATTTGCCACTTTGGGCCACATCTATTAATTTTCATCTTTGTTATAATTGTATTTAGTTTTTGATCTACACTGCTTATTACTCCCAGTCATTTTTTATAGAACTGAAAATCTGGTAAAATACTCAAAATTGCACTGACTTCTATGTAGAGGCGACACTCCATCAGAACCGTGGGCTGACAGGGAATCCCACTGTGCAGGAGCTGCGCGCATTTTCATTTCTGATTCTCTTTGGCGTATCCAGGACTCTGATGACATGATCATATATTTATCAGTAGTAACAGGTTGGGCCATTTGTTTTTTGTGGTAAATCATATATTTAAGATTTTAGAAATAAGTTGATAGCCATGTATTTTGGAATTTGAAAAAGACATTGCATTACTCAGCTTCAAATTAAGCTTTAATCAAATAGTGAAACTTTCCATTAATGGACAGTGTATACCTTTTTGTGTATTTAAAAAAAAAAACACTGAATATAGTGCCTTTGTGACAGGGGAGCTTGGTTCCTGACAATGTCCTCTTGAGCCTTTTTTTTTTTTTTGAGATGGAGTCTCACTGTGTCACCCAGGCTGGAGTGCAGTGGCGCCATCTTGGCTCACTGCAACCTCCGCCCCCTGGGTTCAAGTGATTCTCATTCCTCAGCTTCCTAAGTAGCTGGGATTACAGGCACGCACCACCATGACCAGCTAATTTTTATACTTTTAGTAGAGACAGGGTTTTGCCATGTTGGCTAGGTTGGTCTCGAACTCCTGACCTCAAGTAATCCACCCACCATGGCCTCCCCAAAGTGCTGGGATTACAGGCGTGAGCCATTTCACCCGGCCTCTCTTCCGTCTTTGAGCTGTGAGGAAATAGCTACATTACATGAGCTGCTAGATCTGCCTTATGGTCAGAAATGAAGGTTGAACTCTCAGGAACAGTGACATATATACACACTGATATTTCCAAAGTACAATGCCCCAAATTGATCCACAAAGGAATTAAGGTCATTTGCAACAAAATCACAGAATAGTAACAAATAAATAGAAGATAAATATGGCCAGGGATGCTGCAAACTGATATACTGCCAAGTTTATCAGTTGGGAATCCCAACAGTGAAAAGCATAAAAATGAAAGGAATTTTAAGGAGACTTTTTATAGAAGAGTGGGAAGGATTGGAGGAGCCAACAAGTGATGGTGAGGCACACAGGGAAGAGCTTCAGTGGGCACCATCCCCTCTCTGGTTTGAAGGGGTAGGGAGGGGACCAGAGCTGGGAGGAGGGGGCTGGAATACTGCTGGAGGAGCCACTCCCTTCCAGACCTGCTGTGGCCATCACAGAATGCAGCCACTGCCAGAGCAGCAGCCCGAGGAACCAGGCAGGGGGAGCACAAGTACCCTAGCCTCTCTCTTTCTGTTTCTTGCCTGCCGATCTCCTCCACTGGCTAAACCCAGCTGGATGCTAAGAGTACAGTCAGCCTGCCTGCTGAGGAGGGACCACCAGGGACCACCATCAGCAAGGGATCCAATGTCTTTCTGCCTCTGCAGAATGAAGGTTGGGGCGCGGGGGGCGCTCTACTTCTTAGGGATATTGTGGGAATAAAAGGAAATAGGCAAAAAATGTTTTTGAAAAACAAAGCACATACTGCGCACCCGTGGGCCACTACTGCTTTTGACCCCTGGCTCTGTTTCATGAAGTAATGTCGTGTCATTCTCTTTTTAGGTGCTACAGGATTTCTTTAGGTTTGTTTTCTGTCCACCATATTTCAACTCATGTGTGCTGTTTGTTGTGCTAAAACAAATATTTGCTGATGCCTGAGTGAATAGTTGAATATTTTATATAAGTCAAATTTATACGTAATGATTTTTCTTGTAACTTAGCCGTTTCTCTTTTACAAACTCAGAAAACCTCAGACTTTGAAAAGGCCTTGAAGTTCCTCACCTGAAATCTGAGAACTTGGAGCGCCTTAAAAAATCTAAAGGAAAACAAAACAGTGAAAGAACATGATATAGTCAGTGTAGAGAATAAAATTATTTATGTAATTAATATTGAGGATGCAGATAACACATTGTGAAATCTTGCTTGTAAAAAATCTCGATCTGCTGAAGAAAGATGTTCTCTCTAGAGATCTTTGAAAGCATAATTATTGAGCTTTTAAAATGTTAGAAACAAAAGTTAGACCCACACATATTCTGGCGTGTGGAAGATTTGCATTCCTTCCCCTGCCCGCCCCGCCCCCACACTTGTGAGTTGTGCCTGTGTACGCAGTTCCTGTAGCACTCGGCTGGGCAGAAATCATCTTTCAGCACTAAGGGAACATAGTTATGATCTGGACCTTCTGGGAGTGGTCAGTGCCCAAGAACAGGTATGGGACTCCAGAAAGTTCTGCTCTCAACCCTATTTTGAAATAGAGTTACACATTGTTCTACAATTATTTGAGTTAATAAGCAGCTCTTTTCAAACGTGATTATGCCCTTCCAAGTTTAAATACACTAGACTTTAGTGAAAGTAATTGACCTCATCTCATTTCTCTCCTGTTATATTAAGATCACTTTCAGTAAAAGGTAGAAGCTTTTGAAGTGGTGAGGAGGAGGTAGAGGAGGGACATAGAGCAGATAGGGGCTGGAAAGTGGGGTGAGGAAGAGAGTGGCTTCTCTTTGGCAGAGTACCAAGGAAAAGCCCTATCTGTACAGAACCTTTGTGCCTGGGAACTTGATGGCTGCAACCTGAGCCTCAACCTAGTTTGCTTGCGGAGCCAGAAGAGAAGCTAAAAACCTTCAGTTAACCAAGCCAGACACCAAGAAAGTTAAACCGAAAGAGAACCCCCCACCCCCCGCAAAAAAAAGAAGTAAAGTGGGTTAAAGTGATATCATGTTAGCACAGAAAGAGAACATAAGGGTCATCTAAGTTCATCTGCCCCCTCTTCTATTTCAAGGTGCAGAAACTAAGGCACAAGGGACCCCGTGTCCTGCTCTTGATCACATAGCTAGTGGGTGCCAAGCCAGGTCTAGAACTCTGTTCTCTGGGGTCACAGGCTGGCTCTTCATCCCTCTAGAGAGATAGCTCATCTGTGTGCACCTGAGCCCGTTGTGTTTCGGAGTCAAAGCAAATAAAGGCTCAAACTCCAAGACTGTTTTGCAGACCGGCTGCAGTAGATATGGGGGGAGGAGAAACCTGCTTTAAATTGCTTCAAGCAAGTTGTTTCTGCAAAGGTGTTGACTTTTTTCTTTCAACTTTCTAGTGAGTCACTGCAGCCTGAGCTGTTATTTGTCATTATGCAATAATTCAGGAACTAACTCAAGATTCTTCTTTTTAAATTATTTGTTTATTTAGAGACAGAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGTGTGATCTCGGCTCACTGCAGCCTCTGCCTCCTGGGTTCAAGCAATTCTCATGTCTCAGCCTCCCGAATAGCTGGTATTGCAGGCTCGTGCCACCACCCCCTGCTAATTTTTGTAATTTTAGTGGAGACACGGTTTCGCCATGTTGGCCGGGCTCGTCTTGAGCTCCTGGCCTCAGGTGATCCGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTGCAGCCGTGAGCCTCCACACCCGGCCTATTTATTTATTTTTAAATTGGCTGCTCTTAGAAAGGCATACCATGTTTCTGGATGGGAAGGCTTATTAATTCACCCTAATTTAATGTATAAATTTGATGCAATCATAGTCACAGTCCCAGTGGAATTTTTTAACTTGGTAAGATGTTCTAAAATTAATGAGAGAACTTGAATTACCAGGTATTGAAACACTGTAAAGCCACAATCATGTAAACAGTATGTTATAACCATGGGAATAGAGGTCTGTGATACAGCAGAAAAAAGTGAAAAAAAGAATAACTGTATTCATAAAAATTTAAATGTGGAGTCACTGGGGGAAAGGATTAAATATTCGATAATGTAGAAACAACTCAACTATTTGGAGAAATGTAAATTTAGAGCCTTATCTCATGCCATATACCAAAATACTATTTAGATTTGATTAAAAAATAAAAAAAAAAAAAAAAAAA NM_031966CGAACGCCTTCGCGCGATCGCCCTGGAAACGCATTCTCTGCGACCGGCAGCCGCCAATGGGAAGGGAGTG108AGTGCCACGAACAGGCCAATAAGGAGGGAGCAGTGCGGGGTTTAAATCTGAGGCTAGGCTGGCTCTTCTCGGCGTGCTGCGGCGGAACGGCTGTTGGTTTCTGCTGGGTGTAGGTCCTTGGCTGGTCGGGCCTCCGGTGTTCTGCTTCTCCCCGCTGAGCTGCTGCCTGGTGAAGAGGAAGCCATGGCGCTCCGAGTCACCAGGAACTCGAAAATTAATGCTGAAAATAAGGCGAAGATCAACATGGCAGGCGCAAAGCGCGTTCCTACGGCCCCTGCTGCAACCTCCAAGCCCGGACTGAGGCCAAGAACAGCTCTTGGGGACATTGGTAACAAAGTCAGTGAACAACTGCAGGCCAAAATGCCTATGAAGAAGGAAGCAAAACCTTCAGCTACTGGAAAAGTCATTGATAAAAAACTACCAAAACCTCTTGAAAAGGTACCTATGCTGGTGCCAGTGCCAGTGTCTGAGCCAGTGCCAGAGCCAGAACCTGAGCCAGAACCTGAGCCTGTTAAAGAAGAAAAACTTTCGCCTGAGCCTATTTTGGTTGATACTGCCTCTCCAAGCCCAATGGAAACATCTGGATGTGCCCCTGCAGAAGAAGACCTGTGTCAGGCTTTCTCTGATGTAATTCTTGCAGTAAATGATGTGGATGCAGAAGATGGAGCTGATCCAAACCTTTGTAGTGAATATGTGAAAGATATTTATGCTTATCTGAGACAACTTGAGGAAGAGCAAGCAGTCAGACCAAAATACCTACTGGGTCGGGAAGTCACTGGAAACATGAGAGCCATCCTAATTGACTGGCTAGTACAGGTTCAAATGAAATTCAGGTTGTTGCAGGAGACCATGTACATGACTGTCTCCATTATTGATCGGTTCATGCAGAATAATTGTGTGCCCAAGAAGATGCTGCAGCTGGTTGGTGTCACTGCCATGTTTATTGCAAGCAAATATGAAGAAATGTACCCTCCAGAAATTGGTGACTTTGCTTTTGTGACTGACAACACTTATACTAAGCACCAAATCAGACAGATGGAAATGAAGATTCTAAGAGCTTTAAACTTTGGTCTGGGTCGGCCTCTACCTTTGCACTTCCTTCGGAGAGCATCTAAGATTGGAGAGGTTGATGTCGAGCAACATACTTTGGCCAAATACCTGATGGAACTAACTATGTTGGACTATGACATGGTGCACTTTCCTCCTTCTCAAATTGCAGCAGGAGCTTTTTGCTTAGCACTGAAAATTCTGGATAATGGTGAATGGACACCAACTCTACAACATTACCTGTCATATACTGAAGAATCTCTTCTTCCAGTTATGCAGCACCTGGCTAAGAATGTAGTCATGGTAAATCAAGGACTTACAAAGCACATGACTGTCAAGAACAAGTATGCCACATCGAAGCATGCTAAGATCAGCACTCTACCACAGCTGAATTCTGCACTAGTTCAAGATTTAGCCAAGGCTGTGGCAAAGGTGTAACTTGTAAACTTGAGTTGGAGTACTATATTTACAAATAAAATTGGCACCATGTGCCATCTGTACATATTACTGTTGCATTTACTTTTAATAAAGCTTGTGGCCCCTTTTACTTTTTTATAGCTTAACTAATTTGAATGTGGTTACTTCCTACTGTAGGGTAGCGGAAAAGTTGTCTTAAAAGGTATGGTGGGGATATTTTTAAAAACTCCTTTTGGTTTACCTGGGGATCCAATTGATGTATATGTTTATATACTGGGTTCTTGTTTTATATACCTGGCTTTTACTTTATTAATATGAGTTACTGAAGGTGATGGAGGTATTTGAAAATTTTACTTCCATAGGACATACTGCATGTAAGCCAAGTCATGGAGAATCTGCTGCATAGCTCTATTTTAAAGTAAAAGTCTACCACCGAATCCCTAGTCCCCCTGTTTTCTGTTTCTTCTTGTGATTGCTGCCATAATTCTAAGTTATTTACTTTTACCACTATTTAAGTTATCAACTTTAGCTAGTATCTTCAAACTTTCACTTTGAAAAATGAGAATTTTATATTCTAAGCCAGTTTTCATTTTGGTTTTGTGTTTTGGTTAATAAAACAATACTCAAATACAAAAAAAAAAAA BC035498GCGGCCGCCAGCGCGGTGTAGGGGGCAGGCGCGGATCCCGCCACCGCCGCGCGCTCGGCCCGCCGACTCC110CGGCGCCGCCGCCGCCACTGCCGTCGCCGCCGCCGCCTGCCGGGACTGGAGCGCGCCGTCCGCCGCGGACAAGACCCTGGCCTCAGGCCGGAGCAGCCCCATCATGCCGAGGGAGCGCAGGGAGCGGGATGCGAAGGAGCGGGACACCATGAAGGAGGACGGCGGCGCGGAGTTCTCGGCTCGCTCCAGGAAGAGGAAGGCAAACGTGACCGTTTTTTTGCAGGATCCAGATGAAGAAATGGCCAAAATCGACAGGACGGCGAGGGACCAGTGTGGGAGCCAGCCTTGGGACAATAATGCAGTCTGTGCAGACCCCTGCTCCCTGATCCCCACACCTGACAAAGAAGATGATGACCGGGTTTACCCAAACTCAACGTGCAAGCCTCGGATTATTGCACCATCCAGAGGCTCCCCGCTGCCTGTACTGAGCTGGGCAAATAGAGAGGAAGTCTGGAAAATCATGTTAAACAAGGAAAAGACATACTTAAGGGATCAGCACTTTCTTGAGCAACACCCTCTTCTGCAGCCAAAAATGCGAGCAATTCTTCTGGATTGGTTAATGGAGGTGTGTGAAGTCTATAAACTTCACAGGGAGACCTTTTACTTGGCACAAGATTTCTTTGACCGGTATATGGCGACACAAGAAAATGTTGTAAAAACTCTTTTACAGCTTATTGGGATTTCATCTTTATTTATTGCAGCCAAACTTGAGGAAATCTATCCTCCAAAGTTGCACCAGTTTGCGTATGTGACAGATGGAGCTTGTTCAGGAGATGAAATTCTCACCATGGAATTAATGATTATGAAGGCCCTTAAGTGGCGTTTAAGTCCCCTGACTATTGTGTCCTGGCTGAATGTATACATGCAGGTTGCATATCTAAATGACTTACATGAAGTGCTACTGCCGCAGTATCCCCAGCAAATCTTTATACAGATTGCAGAGCTGTTGGATCTCTGTGTCCTGGATGTTGACTGCCTTGAATTTCCTTATGGTATACTTGCTGCTTCGGCCTTGTATCATTTCTCGTCATCTGAATTGATGCAAAAGGTTTCAGGGTATCAGTGGTGCGACATAGAGAACTGTGTCAAGTGGATGGTTCCATTTGCCATGGTTATAAGGGAGACGGGGAGCTCAAAACTGAAGCACTTCAGGGGCGTCGCTGATGAAGATGCACACAACATACAGACCCACAGAGACAGCTTGGATTTGCTGGACAAAGCCCGAGCAAAGAAAGCCATGTTGTCTGAACAAAATAGGGCTTCTCCTCTCCCCAGTGGGCTCCTCACCCCGCCACAGAGCGGTAAGAAGCAGAGCAGCGGGCCGGAAATGGCGTGACCACCCCATCCTTCTCCACCAAAGACAGTTGCGCGCCTGCTCCACGTTCTCTTCTGTCTGTTGCAGCGGAGGCGTGCGTTTGCTTTTACAGATATCTGAATGGAAGAGTGTTTCTTCCACAACAGAAGTATTTCTGTGGATGGCATCAAACAGGGCAAAGTGTTTTTTATTGAATGCTTATAGGTTTTTTTTAAATAAGTGGGTCAAGTACACCAGCCACCTCCAGACACCAGTGCGTGCTCCCGATGCTGCTATGGAAGGTGCTACTTGACCTAAGGGACTCCCACAACAACAAAAGCTTGAAGCTGTGGAGGGCCACGGTGGCGTGGCTCTCCTCGCAGGTGTTCTGGGCTCCGTTGTACCAAGTGGAGCAGGTGGTTGCGGGCAAGCGTTGTGCAGAGCCCATAGCCAGCTGGGCAGGGGGCTGCCCTCTCCACATTATCAGTTGACAGTGTACAATGCCTTTGATGAACTGTTTTGTAAGTGCTGCTATATCTATCCATTTTTTAATAAAGATAATACTGTTTTTGAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA BG256659GAGGGCACGGGCTCCGTAGGCACCAACTGCAAGGACCCCTCCCCCTGCGGGCGCTCCCATGGCACAGTTC111GCGTTCGAGAGTGACCTGCACTCGCTGCTTCAGCTGGATGCACCCATCCCCAATGCACCCCCTGCGCGCTGGCAGCGCAAAGCCAAGGAAGCCGCAGGCCCGGCCCCCTCACCCATGCGGGCCGCCAACCGATCCCACAGCGCCGGCAGGACTCCGGGCCGAACTCCTGGCAAATCCAGTTCCAAGGTTCAGACCACTCCTAGCAAACCTGGCGGTGACCGCTATATCCCCCATCGCAGTGCTGCCCAGATGGAGGTGGCCAGCTTCCTCCTGAGCAAGGAGAACCAGCCTGAAAACAGCCAGACGCCCACCAAGAAGGAACATCAGAAAGCCTGGGCTTTGAACCTGAACGGTTTTGATGTAGAGGAAGCCAAGATCCTTCGGCTCAGTGGAAAAACCACAAAAATGCGCCAGAGGGTTATCACGAACAGACTGAAAGTACTCTACAGCCAAAAGGCCACTCCTGGCTCCAGCCGGAAGACCTGCCGTTTACATTCCTTCCCTGCCAAGACCGTATCCTGGATGCGCCTGAAATCGAATGACTATTAACTGAACCTGTGGGACTGGCAGTCCGGGGAATGTCCGGGCCGGGCCACGGCCACGAGGTGTTCCGTGTGGAGTGCAAGCTGGGACACACCGTGCCGCTTGTGCACAGGGCCACGCGGGGAAATAATCCCGGGGCGCGCAAAGCGGCACTGGCGAGAGCCGCACGGGCCGGTGCTGGGGGTGGTACAACAGGCCAAAACAACACACAAGGCCAACAAGACATACGCGCGCTGACACCACGGTGCAAAGCGCTCAGACGAGTAGTAACCGGCACTGTGGTTGCTGCCTCCCCACCTCTCCCGCTCTCAGCGTAAGATAAAAGAAAGAAGAGCAAAAAGCAAAGAAAGAAGACGAGACGAGACACACAGGAACGAACAGTAAAGCAAGCTAAAGCAAACGCAAGACCAGACAACAGAAATAGAAAGAACCAACAGAGAGGAGACAGAACAGGACGCCAGCAACATAGCAACAAACGAACAGAAGAGAGCACTAAACAAAAGCAGCAGCAAGACGAGACAGGAGAGAAGGAGGAAGGAGGGCCGAGCGAGCAGGGAGCGCGAGCAGCGAGGCGAAGCAGCAGACAAGGGCAGGCGAAGGGCAACGAGAGGAGGCACCACACAAAAAGGAGAGGGGACAGGAGAAGCAGCGAGAGAAGCGGAGGAGCAACAAGAGGAAGAAAAGGAGAGGGAGAGGAGGGAGAGAGCGGAAGGAGGAAGAAACAGCACGAGGCGACGAAGGGGGGAGACGCGGGGGCAGGAAAAGACACAGGAAGGCAGCGCGGAGGAGGAGAAGGGGAAGCAGGAAGGAGACGGAAGGAGAAGAGGGAGAGGACAGCGCAAGAGAGCGCGCGCGGCGACAGCGAGGGACGGAGCGAGAGAGAGGAAACGGAAAGCGAGAGGGAAGAGGAGAGGCAACGCAGCGAACCAACCGAAAACAGCAGAAAGAGAGGAGAAGGACGCGCAAAGAGGCAAGCGCAAGACGACAGGAAACGAAGCGAGAGACGAGAAGCCGGTGACGAGCAGGAGAAAGGGAAGGCAGGAGACAGGACAGGCGGAAGAGAGACACGCGAGACGCAAAGAGTGAGCAGAACGAAGCGAAGAGCAACGCACGAGAGAAACGAC NM_001254GAGCGCGGCTGGAGTTTGCTGCTGCCGCTGTGCAGTTTGTTCAGGGGCTTGTGGTGGTGAGTCCGAGAGG112CTGCGTGTGAGAGACGTGAGAAGGATCCTGCACTGAGGAGGTGGAAAGAAGAGGATTGCTCGAGGAGGCCTGGGGTCTGTGAGGCAGCGGAGCTGGGTGAAGGCTGCGGGTTCCGGCGAGGCCTGAGCTGTGCTGTCGTCATGCCTCAAACCCGATCCCAGGCACAGGCTACAATCAGTTTTCCAAAAAGGAAGCTGTCTCGGGCATTGAACAAAGCTAAAAACTCCAGTGATGCCAAACTAGAACCAACAAATGTCCAAACCGTAACCTGTTCTCCTCGTGTAAAAGCCCTGCCTCTCAGCCCCAGGAAACGTCTGGGCGATGACAACCTATGCAACACTCCCCATTTACCTCCTTGTTCTCCACCAAAGCAAGGCAAGAAAGAGAATGGTCCCCCTCACTCACATACACTTAAGGGACGAAGATTGGTATTTGACAATCAGCTGACAATTAAGTCTCCTAGCAAAAGAGAACTAGCCAAAGTTCACCAAAACAAAATACTTTCTTCAGTTAGAAAAAGTCAAGAGATCACAACAAATTCTGAGCAGAGATGTCCACTGAAGAAAGAATCTGCATGTGTGAGACTATTCAAGCAAGAAGGCACTTGCTACCAGCAAGCAAAGCTGGTCCTGAACACAGCTGTCCCAGATCGGCTGCCTGCCAGGGAAAGGGAGATGGATGTCATCAGGAATTTCTTGAGGGAACACATCTGTGGGAAAAAAGCTGGAAGCCTTTACCTTTCTGGTGCTCCTGGAACTGGAAAAACTGCCTGCTTAAGCCGGATTCTGCAAGACCTCAAGAAGGAACTGAAAGGCTTTAAAACTATCATGCTGAATTGCATGTCCTTGAGGACTGCCCAGGCTGTATTCCCAGCTATTGCTCAGGAGATTTGTCAGGAAGAGGTATCCAGGCCAGCTGGGAAGGACATGATGAGGAAATTGGAAAAACATATGACTGCAGAGAAGGGCCCCATGATTGTGTTGGTATTGGACGAGATGGATCAACTGGACAGCAAAGGCCAGGATGTATTGTACACGCTATTTGAATGGCCATGGCTAAGCAATTCTCACTTGGTGCTGATTGGTATTGCTAATACCCTGGATCTCACAGATAGAATTCTACCTAGGCTTCAAGCTAGAGAAAAATGTAAGCCACAGCTGTTGAACTTCCCACCTTATACCAGAAATCAGATAGTCACTATTTTGCAAGATCGACTTAATCAGGTATCTAGAGATCAGGTTCTGGACAATGCTGCAGTTCAATTCTGTGCCCGCAAAGTCTCTGCTGTTTCAGGAGATGTTCGCAAAGCACTGGATGTTTGCAGGAGAGCTATTGAAATTGTAGAGTCAGATGTCAAAAGCCAGACTATTCTCAAACCACTGTCTGAATGTAAATCACCTTCTGAGCCTCTGATTCCCAAGAGGGTTGGTCTTATTCACATATCCCAAGTCATCTCAGAAGTTGATGGTAACAGGATGACCTTGAGCCAAGAAGGAGCACAAGATTCCTTCCCTCTTCAGCAGAAGATCTTGGTTTGCTCTTTGATGCTCTTGATCAGGCAGTTGAAAATCAAAGAGGTCACTCTGGGGAAGTTATATGAAGCCTACAGTAAAGTCTGTCGCAAACAGCAGGTGGCGGCTGTGGACCAGTCAGAGTGTTTGTCACTTTCAGGGCTCTTGGAAGCCAGGGGCATTTTAGGATTAAAGAGAAACAAGGAAACCCGTTTGACAAAGGTGTTTTTCAAGATTGAAGAGAAAGAAATAGAACATGCTCTGAAAGATAAAGCTTTAATTGGAAATATCTTAGCTACTGGATTGCCTTAAATTCTTCTCTTACACCCCACCCGAAAGTATTCAGCTGGCATTTAGAGAGCTACAGTCTTCATTTTAGTGCTTTACACATTCGGGCCTGAAAACAAATATGACCTTTTTTACTTGAAGCCAATGAATTTTAATCTATAGATTCTTTAATATTAGCACAGAATAATATCTTTGGGTCTTACTATTTTTACCCATAAAAGTGACCAGGTAGACCCTTTTTAATTACATTCACTACTTCTACCACTTGTGTATCTCTAGCCAATGTGCTTGCAAGTGTACAGATCTGTGTAGAGGAATGTGTGTATATTTACCTCTTCGTTTGCTCAAACATGAGTGGGTATTTTTTTGTTTGTTTTTTTTGTTGTTGTTGTTTTTGAGGCGCGTCTCACCCTGTTGCCCAGGCTGGAGTGCAATGGCGCGTTCTCTGCTCACTACAGCACCCGCTTCCCAGGTTGAAGTGATTCTCTTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGTGCCCACCACCGCGCCCAGCTAATTTTTTAATTTTTAGTAGAGACAGGGTTTTACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCCTCAAGTGATCTGCCCACCTTGGCCTCCCTAAGTGCTGGGATTATAGGCGTGAGCCACCATGCTCAGCCATTAAGGTATTTTGTTAAGAACTTTAAGTTTAGGGTAAGAAGAATGAAAATGATCCAGAAAAATGCAAGCAAGTCCACATGGAGATTTGGAGGACACTGGTTAAAGAATTTATTTCTTTGTATAGTATACTATGTTCATGGTGCAGATACTACAACATTGTGGCATTTTAGACTCGTTGAGTTTCTTGGGCACTCCCAAGGGCGTTGGGGTCATAAGGAGACTATAACTCTACAGATTGTGAATATATTTATTTTCAAGTTGCATTCTTTGTCTTTTTAAGCAATCAGATTTCAAGAGAGCTCAAGCTTTCAGAAGTCAATGTGAAAATTCCTTCCTAGGCTGTCCCACAGTCTTTGCTGCCCTTAGATGAAGCCACTTGTTTCAAGATGACTACTTTGGGGTTGGGTTTTCATCTAAACACATTTTTCCAGTCTTATTAGATAAATTAGTCCATATGGTTGGTTAATCAAGAGCCTTCTGGGTTTGGTTTGGTGGCATTAAATGG NM_031423GCGGAATGGGGCGGGACTTCCAGTAGGAGGCGGCAAGTTTGAAAAGTGATGACGGTTGACGTTTGCTGAT113TTTTGACTTTGCTTGTAGCTGCTCCCCGAACTCGCCGTCTTCCTGTCGGCGGCCGGCACTGTAGATTAACAGGAAACTTCCAAGATGGAAACTTTGTCTTTCCCCAGATATAATGTAGCTGAGATTGTGATTCATATTCGCAATAAGATCTTAACAGGAGCTGATGGTAAAAACCTCACCAAGAATGATCTTTATCCAAATCCAAAGCCTGAAGTCTTGCACATGATCTACATGAGAGCCTTACAAATAGTATATGGAATTCGACTGGAACATTTTTACATGATGCCAGTGAACTCTGAAGTCATGTATCCACATTTAATGGAAGGCTTCTTACCATTCAGCAATTTAGTTACTCATCTGGACTCATTTTTGCCTATCTGCCGGGTGAATGACTTTGAGACTGCTGATATTCTATGTCCAAAAGCAAAACGGACAAGTCGGTTTTTAAGTGGCATTATCAACTTTATTCACTTCAGAGAAGCATGCCGTGAAACGTATATGGAATTTCTTTGGCAATATAAATCCTCTGCGGACAAAATGCAACAGTTAAACGCCGCACACCAGGAGGCATTAATGAAACTGGAGAGACTTGATTCTGTTCCAGTTGAAGAGCAAGAAGAGTTCAAGCAGCTTTCAGATGGAATTCAGGAGCTACAACAATCACTAAATCAGGATTTTCATCAAAAAACGATAGTGCTGCAAGAGGGAAATTCCCAAAAGAAGTCAAATATTTCAGAGAAAACCAAGCGTTTGAATGAACTAAAATTGTCGGTGGTTTCTTTGAAAGAAATACAAGAGAGTTTGAAAACAAAAATTGTGGATTCTCCAGAGAAGTTAAAGAATTATAAAGAAAAAATGAAAGATACGGTCCAGAAGCTTAAAAATGCCAGACAAGAAGTGGTGGAGAAATATGAAATCTATGGAGACTCAGTTGACTGCCTGCCTTCATGTCAGTTGGAAGTGCAGTTATATCAAAAGAAAATACAGGACCTTTCAGATAATAGGGAAAAATTAGCCAGTATCTTAAAGGAGAGCCTGAACTTGGAGGACCAAATTGAGAGTGATGAGTCAGAACTGAAGAAATTGAAGACTGAAGAAAATTCGTTCAAAAGACTGATGATTGTGAAGAAGGAAAAACTTGCCACAGCACAATTCAAAATAAATAAGAAGCATGAAGATGTTAAGCAATACAAACGCACAGTAATTGAGGATTGCAATAAAGTTCAAGAAAAAAGAGGTGCTGTCTATGAACGAGTAACCACAATTAATCAAGAAATCCAAAAAATTAAACTTGGAATTCAACAACTAAAAGATGCTGCTGAAAGGGAGAAACTGAAGTCCCAGGAAATATTTCTAAACTTGAAAACTGCTTTGGAGAAATACCACGACGGTATTGAAAAGGCAGCAGAGGACTCCTATGCTAAGATAGATGAGAAGACAGCTGAACTGAAGAGGAAGATGTTCAAAATGTCAACCTGATTAACAAAATTACATGTCTTTTTGTAAATGGCTTGCCATCTTTTAATTTTCTATTTAGAAAGAAAAGTTGAAGCGAATGGAAGTATCAGAAGTACCAAATAATGTTGGCTTCATCAGTTTTTATACACTCTCATAAGTAGTTAATAAGATGAATTTAATGTAGGCTTTTATTAATTTATAATTAAAATAACTTGTGCAGCTATTCATGTCTCTACTCTGCCCCTTGTTGTAAATAGTTTGAGTAAAACAAAACTAGTTACCTTTGAAATATATATATTTTTTTCTGTTACTATC BC041846GGCTAGCGCGGGAGGTGGAGAAAGAGGCTTGGGCGGCCCCGCTGTAGCCGCGTGTGGGAGGACGCACGGG114CCTGCTTCAAAGCTTTGGGATAACAGCGCCTCCGGGGGATAATGAATGCGGAGCCTCCGTTTTCAGTCGACTTCAGATGTGTCTCCACTTTTTTCCGCTGTAGCCGCAAGGCAAGGAAACATTTCTCTTCCCGTACTGAGGAGGCTGAGGAGTGCACTGGGTGTTCTTTTCTCCTCTAACCCAGAACTGCGAGACAGAGGCTGAGTCCCTGTAAAGAACAGCTCCAGAAAAGCCAGGAGAGCGCAGGAGGGCATCCGGGAGGCCAGGAGGGGTTCGCTGGGGCCTCAACCGCACCCACATCGGTCCCACCTGCGAGGGGGCGGGACCTCGTGGCGCTGGACCAATCAGCACCCACCTGCGCTCACCTGGCCTCCTCCCGCTGGCTCCCGGGGGCTGCGGTGCTCAAAGGGGCAAGAGCTGAGCGGAACACCGGCCCGCCGTCGCGGCAGCTGCTTCACCCCTCTCTCTGCAGCCATGGGGCTCCCTCGTGGACCTCTCGCGTCTCTCCTCCTTCTCCAGGTTTGCTGGCTGCAGTGCGCGGCCTCCGAGCCGTGCCGGGCGGTCTTCAGGGAGGCTGAAGTGACCTTGGAGGCGGGAGGCGCGGAGCAGGAGCCCGGCCAGGCGCTGGGGAAAGTATTCATGGGCTGCCCTGGGCAAGAGCCAGCTCTGTTTAGCACTGATAATGATGACTTCACTGTGCGGAATGGCGAGACAGTCCAGGAAAGAAGGTCACTGAAGGAAAGGAATCCATTGAAGATCTTCCCATCCAAACGTATCTTACGAAGACACAAGAGAGATTGGGTGGTTGCTCCAATATCTGTCCCTGAAAATGGCAAGGGTCCCTTCCCCCAGAGACTGAATCAGCTCAAGTCTAATAAAGATAGAGACACCAAGATTTTCTACAGCATCACGGGGCCGGGGGCAGACAGCCCCCCTGAGGGTGTCTTCGCTGTAGAGAAGGAGACAGGCTGGTTGTTGTTGAATAAGCCACTGGACCGGGAGGAGATTGCCAAGTATGAGCTCTTTGGCCACGCTGTGTCAGAGAATGGTGCCTCAGTGGAGGACCCCATGAACATCTCCATCATAGTGACCGACCAGAATGACCACAAGCCCAAGTTTACCCAGGACACCTTCCGAGGGAGTGTCTTAGAGGGAGTCCTACCAGGTACTTCTGTGATGCAGATGACAGCCACAGATGAGGATGATGCCATCTACACCTACAATGGGGTGGTTGCTTACTCCATCCATAGCCAAGAACCAAAGGACCCACACGACCTCATGTTCACAATTCACCGGAGCACAGGCACCATCAGCGTCATCTCCAGTGGCCTGGACCGGGAAAAAGTCCCTGAGTACACACTGACCATCCAGGCCACAGACATGGATGGGGACGGCTCCACCACCACGGCAGTGGCAGTAGTGGAGATCCTTGATGCCAATGACAATGCTCCCATGTTTGACCCCCAGAAGTACGAGGCCCATGTGCCTGAGAATGCAGTGGGCCATGAGGTGCAGAGGCTGACGGTCACTGATCTGGACGCCCCCAACTCACCAGCGTGGCGTGCCACCTACCTTATCATGGGCGGTGACGACGGGGACCATTTTACCATCACCACCCACCCTGAGAGCAACCAGGGCATCCTGACAACCAGGAAGGGTTTGGATTTTGAGGCCAAAAACCAGCACACCCTGTACGTTGAAGTGACCAACGAGGCCCCTTTTGTGCTGAAGCTCCCAACCTCCACAGCCACCATAGTGGTCCACGTGGAGGATGTGAATGAGGCACCTGTGTTTGTCCCACCCTCCAAAGTCGTTGAGGTCCAGGAGGGCATCCCCACTGGGGAGCCTGTGTGTGTCTACACTGCAGAAGACCCTGACAAGGAGAATCAAAAGATCAGCTACCGCATCCTGAGAGACCCAGCAGGGTGGCTAGCCATGGACCCAGACAGTGGGCAGGTCACAGCTGTGGGCACCCTCGACCGTGAGGATGAGCAGTTTGTGAGGAACAACATCTATGAAGTCATGGTCTTGGCCATGGACAATGGAAGCCCTCCCACCACTGGCACGGGAACCCTTCTGCTAACACTGATTGATGTCAACGACCATGGCCCAGTCCCTGAGCCCCGTCAGATCACCATCTGCAACCAAAGCCCTGTGCGCCAGGTGCTGAACATCACGGACAAGGACCTGTCTCCCCACACCTCCCCTTTCCAGGCCCAGCTCACAGATGACTCAGACATCTACTGGACGGCAGAGGTCAACGAGGAAGGTGACACAGTGGTCTTGTCCCTGAAGAAGTTCCTGAAGCAGGATACATATGACGTGCACCTTTCTCTGTCTGACCATGGCAACAAAGAGCAGCTGACGGTGATCAGGGCCACTGTGTGCGACTGCCATGGCCATGTCGAAACCTGCCCTGGACCCTGGAAAGGAGGTTTCATCCTCCCTGTGCTGGGGGCTGTCCTGGCTCTGCTGTTCCTCCTGCTGGTGCTGCTTTTGTTGGTGAGAAAGAAGCGGAAGATCAAGGAGCCCCTCCTACTCCCAGAAGATGACACCCGTGACAACGTCTTCTACTATGGCGAAGAGGGGGGTGGCGAAGAGGACCAGGACTATGACATCACCCAGCTCCACCGAGGTCTGGAGGCCAGGCCGGAGGTGGTTCTCCGCAATGACGTGGCACCAACCATCATCCCGACACCCATGTACCGTCCTAGGCCAGCCAACCCAGATGAAATCGGCAACTTTATAATTGAGAACCTGAAGGCGGCTAACACAGACCCCACAGCCCCGCCCTACGACACCCTCTTGGTGTTCGACTATGAGGGCAGCGGCTCCGACGCCGCGTCCCTGAGCTCCCTCACCTCCTCCGCCTCCGACCAAGACCAAGATTACGATTATCTGAACGAGTGGGGCAGCCGCTTCAAGAAGCTGGCAGACATGTACGGTGGCGGGGAGGACGACTAGGCGGCCTGCCTGCAGGGCTGGGGACCAAACGTCAGGCCACAGAGCATCTCCAAGGGGTCTCAGTTCCCCCTTCAGCTGAGGACTTCGGAGCTTGTCAGGAAGTGGCCGTAGCAACTTGGCGGAGACAGGCTATGAGTCTGACGTTAGAGTGGTTGCTTCCTTAGCCTTTCAGGATGGAGGAATGTGGGCAGTTTGACTTCAGCACTGAAAACCTCTCCACCTGGGCCAGGGTTGCCTCAGAGGCCAAGTTTCCAGAAGCCTCTTACCTGCCGTAAAATGCTCAACCCTGTGTCCTGGGCCTGGGCCTGCTGTGACTGACCTACAGTGGACTTTCTCTCTGGAATGGAACCTTCTTAGGCCTCCTGGTGCAACTTAATTTTTTTTTTTAATGCTATCTTCAAAACGTTAGAGAAAGTTCTTCAAAAGTGCAGCCCAGAGCTGCTGGGCCCACTGGCCGTCCTGCATTTCTGGTTTCCAGACCCCAATGCCTCCCATTCGGATGGATCTCTGCGTTTTTATACTGAGTGTGCCTAGGTTGCCCCTTATTTTTTATTTTCCCTGTTGCGTTGCTATAGATGAAGGGTGAGGACAATCGTGTATATGTACTAGAACTTTTTTATTAAAGAAACTTTTCCCAAAAAAAAAAAAAAAA NM_016343GAGACCAGAAGCGGGCGAATTGGGCACCGGTGGCGGCTGCGGGCAGTTTGAATTAGACTCTGGGCTCCAG115CCCGCCGAAGCCGCGCCAGAACTGTACTCTCCGAGAGGTCGTTTTCCCGTCCCCGAGAGCAAGTTTATTTACAAATGTTGGAGTAATAAAGAAGGCAGAACAAAATGAGCTGGGCTTTGGAAGAATGGAAAGAAGGGCTGCCTACAAGAGCTCTTCAGAAAATTCAAGAGCTTGAAGGACAGCTTGACAAACTGAAGAAGGAAAAGCAGCAAAGGCAGTTTCAGCTTGACAGTCTCGAGGCTGCGCTGCAGAAGCAAAAACAGAAGGTTGAAAATGAAAAAACCGAGGGTACAAACCTGAAAAGGGAGAATCAAAGATTGATGGAAATATGTGAAAGTCTGGAGAAAACTAAGCAGAAGATTTCTCATGAACTTCAAGTCAAGGAGTCACAAGTGAATTTCCAGGAAGGACAACTGAATTCAGGCAAAAAACAAATAGAAAAACTGGAACAGGAACTTAAAAGGTGTAAATCTGAGCTTGAAAGAAGCCAACAAGCTGCGCAGTCTGCAGATGTCTCTCTGAATCCATGCAATACACCACAAAAAATTTTTACAACTCCACTAACACCAAGTCAATATTATAGTGGTTCCAAGTATGAAGATCTAAAAGAAAAATATAATAAAGAGGTTGAAGAACGAAAAAGATTAGAGGCAGAGGTTAAAGCCTTGCAGGCTAAAAAAGCAAGCCAGACTCTTCCACAAGCCACCATGAATCACCGCGACATTGCCCGGCATCAGGCTTCATCATCTGTGTTCTCATGGCAGCAAGAGAAGACCCCAAGTCATCTTTCATCTAATTCTCAAAGAACTCCAATTAGGAGAGATTTCTCTGCATCTTACTTTTCTGGGGAACAAGAGGTGACTCCAAGTCGATCAACTTTGCAAATAGGGAAAAGAGATGCTAATAGCAGTTTCTTTGACAATTCTAGCAGTCCTCATCTTTTGGATCAATTAAAAGCGCAGAATCAAGAGCTAAGAAACAAGATTAATGAGTTGGAACTACGCCTGCAAGGACATGAAAAAGAAATGAAAGGCCAAGTGAATAAGTTTCAAGAACTCCAACTCCAACTGGAGAAAGCAAAAGTGGAATTAATTGAAAAAGAGAAAGTTTTGAACAAATGTAGGGATGAACTAGTGAGAACAACAGCACAATACGACCAGGCGTCAACCAAGTATACTGCATTGGAACAAAAACTGAAAAAATTGACGGAAGATTTGAGTTGTCAGCGACAAAATGCAGAAAGTGCCAGATGTTCTCTGGAACAGAAAATTAAGGAAAAAGAAAAGGAGTTTCAAGAGGAGCTCTCCCGTCAACAGCGTTCTTTCCAAACACTGGACCAGGAGTGCATCCAGATGAAGGCCAGACTCACCCAGGAGTTACAGCAAGCCAAGAATATGCACAACGTCCTGCAGGCTGAACTGGATAAACTCACATCAGTAAAGCAACAGCTAGAAAACAATTTGGAAGAGTTTAAGCAAAAGTTGTGCAGAGCTGAACAGGCGTTCCAGGCGAGTCAGATCAAGGAGAATGAGCTGAGGAGAAGCATGGAGGAAATGAAGAAGGAAAACAACCTCCTTAAGAGTCACTCTGAGCAAAAGGCCAGAGAAGTCTGCCACCTGGAGGCAGAACTCAAGAACATCAAACAGTGTTTAAATCAGAGCCAGAATTTTGCAGAAGAAATGAAAGCGAAGAATACCTCTCAGGAAACCATGTTAAGAGATCTTCAAGAAAAAATAAATCAGCAAGAAAACTCCTTGACTTTAGAAAAACTGAAGCTTGCTGTGGCTGATCTGGAAAAGCAGCGAGATTGTTCTCAAGACCTTTTGAAGAAAAGAGAACATCACATTGAACAACTTAATGATAAGTTAAGCAAGACAGAGAAAGAGTCCAAAGCCTTGCTGAGTGCTTTAGAGTTAAAAAAGAAAGAATATGAAGAATTGAAAGAAGAGAAAACTCTGTTTTCTTGTTGGAAAAGTGAAAACGAAAAACTTTTAACTCAGATGGAATCAGAAAAGGAAAACTTGCAGAGTAAAATTAATCACTTGGAAACTTGTCTGAAGACACAGCAAATAAAAAGTCATGAATACAACGAGAGAGTAAGAACGCTGGAGATGGACAGAGAAAACCTAAGTGTCGAGATCAGAAACCTTCACAACGTGTTAGACAGTAAGTCAGTGGAGGTAGAGACCCAGAAACTAGCTTATATGGAGCTACAGCAGAAAGCTGAGTTCTCAGATCAGAAACATCAGAAGGAAATAGAAAATATGTGTTTGAAGACTTCTCAGCTTACTGGGCAAGTTGAAGATCTAGAACACAAGCTTCAGTTACTGTCAAATGAAATAATGGACAAAGACCGGTGTTACCAAGACTTGCATGCCGAATATGAGAGCCTCAGGGATCTGCTAAAATCCAAAGATGCTTCTCTGGTGACAAATGAAGATCATCAGAGAAGTCTTTTGGCTTTTGATCAGCAGCCTGCCATGCATCATTCCTTTGCAAATATAATTGGAGAACAAGGAAGCATGCCTTCAGAGAGGAGTGAATGTCGTTTAGAAGCAGACCAAAGTCCGAAAAATTCTGCCATCCTACAAAATAGAGTTGATTCACTTGAATTTTCATTAGAGTCTCAAAAACAGATGAACTCAGACCTGCAAAAGCAGTGTGAAGAGTTGGTGCAAATCAAAGGAGAAATAGAAGAAAATCTCATGAAAGCAGAACAGATGCATCAAAGTTTTGTGGCTGAAACAAGTCAGCGCATTAGTAAGTTACAGGAAGACACTTCTGCTCACCAGAATGTTGTTGCTGAAACCTTAAGTGCCCTTGAGAACAAGGAAAAAGAGCTGCAACTTTTAAATGATAAGGTAGAAACTGAGCAGGCAGAGATTCAAGAATTAAAAAAGAGCAACCATCTACTTGAAGACTCTCTAAAGGAGCTACAACTTTTATCCGAAACCCTAAGCTTGGAGAAGAAAGAAATGAGTTCCATCATTTCTCTAAATAAAAGGGAAATTGAAGAGCTGACCCAAGAGAATGGGACTCTTAAGGAAATTAATGCATCCTTAAATCAAGAGAAGATGAACTTAATCCAGAAAAGTGAGAGTTTTGCAAACTATATAGATGAAAGGGAGAAAAGCATTTCAGAGTTATCTGATCAGTACAAGCAAGAAAAACTTATTTTACTACAAAGATGTGAAGAAACCGGAAATGCATATGAGGATCTTAGTCAAAAATACAAAGCAGCACAGGAAAAGAATTCTAAATTAGAATGCTTGCTAAATGAATGCACTAGTCTTTGTGAAAATAGGAAAAATGAGTTGGAACAGCTAAAGGAAGCATTTGCAAAGGAACACCAAGAATTCTTAACAAAATTAGCATTTGCTGAAGAAAGAAATCAGAATCTGATGCTAGAGTTGGAGACAGTGCAGCAAGCTCTGAGATCTGAGATGACAGATAACCAAAACAATTCTAAGAGCGAGGCTGGTGGTTTAAAGCAAGAAATCATGACTTTAAAGGAAGAACAAAACAAAATGCAAAAGGAAGTTAATGACTTATTACAAGAGAATGAACAGCTGATGAAGGTAATGAAGACTAAACATGAATGTCAAAATCTAGAATCAGAACCAATTAGGAACTCTGTGAAAGAAAGAGAGAGTGAGAGAAATCAATGTAATTTTAAACCTCAGATGGATCTTGAAGTTAAAGAAATTTCTCTAGATAGTTATAATGCGCAGTTGGTGCAATTAGAAGCTATGCTAAGAAATAAGGAATTAAAACTTCAGGAAAGTGAGAAGGAGAAGGAGTGCCTGCAGCATGAATTACAGACAATTAGAGGAGATCTTGAAACCAGCAATTTGCAAGACATGCAGTCACAAGAAATTAGTGGCCTTAAAGACTGTGAAATAGATGCGGAAGAAAAGTATATTTCAGGGCCTCATGAGTTGTCAACAAGTCAAAACGACAATGCACACCTTCAGTGCTCTCTGCAAACAACAATGAACAAGCTGAATGAGCTAGAGAAAATATGTGAAATACTGCAGGCTGAAAAGTATGAACTCGTAACTGAGCTGAATGATTCAAGGTCAGAATGTATCACAGCAACTAGGAAAATGGCAGAAGAGGTAGGGAAACTACTAAATGAAGTTAAAATATTAAATGATGACAGTGGTCTTCTCCATGGTGAGTTAGTGGAAGACATACCAGGAGGTGAATTTGGTGAACAACCAAATGAACAGCACCCTGTGTCTTTGGCTCCATTGGACGAGAGTAATTCCTACGAGCACTTGACATTGTCAGACAAAGAAGTTCAAATGCACTTTGCCGAATTGCAAGAGAAATTCTTATCTTTACAAAGTGAACACAAAATTTTACATGATCAGCACTGTCAGATGAGCTCTAAAATGTCAGAGCTGCAGACCTATGTTGACTCATTAAAGGCCGAAAATTTGGTCTTGTCAACGAATCTGAGAAACTTTCAAGGTGACTTGGTGAAGGAGATGCAGCTGGGCTTGGAGGAGGGGCTCGTTCCATCCCTGTCATCCTCTTGTGTGCCTGACAGCTCTAGTCTTAGCAGTTTGGGAGACTCCTCCTTTTACAGAGCTCTTTTAGAACAGACAGGAGATATGTCTCTTTTGAGTAATTTAGAAGGGGCTGTTTCAGCAAACCAGTGCAGTGTAGATGAAGTATTTTGCAGCAGTCTGCAGGAGGAGAATCTGACCAGGAAAGAAACCCCTTCGGCCCCAGCGAAGGGTGTTGAAGAGCTTGAGTCCCTCTGTGAGGTGTACCGGCAGTCCCTCGAGAAGCTAGAAGAGAAAATGGAAAGTCAAGGGATTATGAAAAATAAGGAAATTCAAGAGCTCGAGCAGTTATTAAGTTCTGAAAGGCAAGAGCTTGACTGCCTTAGGAAGCAGTATTTGTCAGAAAATGAACAGTGGCAACAGAAGCTGACAAGCGTGACTCTGGAGATGGAGTCCAAGTTGGCGGCAGAAAAGAAACAGACGGAACAACTGTCACTTGAGCTGGAAGTAGCACGACTCCAGCTACAAGGTCTGGACTTAAGTTCTCGGTCTTTGCTTGGCATCGACACAGAAGATGCTATTCAAGGCCGAAATGAGAGCTGTGACATATCAAAAGAACATACTTCAGAAACTACAGAAAGAACACCAAAGCATGATGTTCATCAGATTTGTGATAAAGATGCTCAGCAGGACCTCAATCTAGACATTGAGAAAATAACTGAGACTGGTGCAGTGAAACCCACAGGAGAGTGCTCTGGGGAACAGTCCCCAGATACCAATTATGAGCCTCCAGGGGAAGATAAAACCCAGGGCTCTTCAGAATGCATTTCTGAATTGTCATTTTCTGGTCCTAATGCTTTGGTACCTATGGATTTCCTGGGGAATCAGGAAGATATCCATAATCTTCAACTGCGGGTAAAAGAGACATCAAATGAGAATTTGAGATTACTTCATGTGATAGAGGACCGTGACAGAAAAGTTGAAAGTTTGCTAAATGAAATGAAAGAATTAGACTCAAAACTCCATTTACAGGAGGTACAACTAATGACCAAAATTGAAGCATGCATAGAATTGGAAAAAATAGTTGGGGAACTTAAGAAAGAAAACTCAGATTTAAGTGAAAAATTGGAATATTTTTCTTGTGATCACCAGGAGTTACTCCAGAGAGTAGAAACTTCTGAAGGCCTCAATTCTGATTTAGAAATGCATGCAGATAAATCATCACGTGAAGATATTGGAGATAATGTGGCCAAGGTGAATGACAGCTGGAAGGAGAGATTTCTTGATGTGGAAAATGAGCTGAGTAGGATCAGATCGGAGAAAGCTAGCATTGAGCATGAAGCCCTCTACCTGGAGGCTGACTTAGAGGTAGTTCAAACAGAGAAGCTATGTTTAGAAAAAGACAATGAAAATAAGCAGAAGGTTATTGTCTGCCTTGAAGAAGAACTCTCAGTGGTCACAAGTGAGAGAAACCAGCTTCGTGGAGAATTAGATACTATGTCAAAAAAAACCACGGCACTGGATCAGTTGTCTGAAAAAATGAAGGAGAAAACACAAGAGCTTGAGTCTCATCAAAGTGAGTGTCTCCATTGCATTCAGGTGGCAGAGGCAGAGGTGAAGGAAAAGACGGAACTCCTTCAGACTTTGTCCTCTGATGTGAGTGAGCTGTTAAAAGACAAAACTCATCTCCAGGAAAAGCTGCAGAGTTTGGAAAAGGACTCACAGGCACTGTCTTTGACAAAATGTGAGCTGGAAAACCAAATTGCACAACTGAATAAAGAGAAAGAATTGCTTGTCAAGGAATCTGAAAGCCTGCAGGCCAGACTGAGTGAATCAGATTATGAAAAGCTGAATGTCTCCAAGGCCTTGGAGGCCGCACTGGTGGAGAAAGGTGAGTTCGCATTGAGGCTGAGCTCAACACAGGAGGAAGTGCATCAGCTGAGAAGAGGCATCGAGAAACTGAGAGTTCGCATTGAGGCCGATGAAAAGAAGCAGCTGCACATCGCAGAGAAACTGAAAGAACGCGAGCGGGAGAATGATTCACTTAAGGATAAAGTTGAGAACCTTGAAAGGGAATTGCAGATGTCAGAAGAAAACCAGGAGCTAGTGATTCTTGATGCCGAGAATTCCAAAGCAGAAGTAGAGACTCTAAAAACACAAATAGAAGAGATGGCCAGAAGCCTGAAAGTTTTTGAATTAGACCTTGTCACGTTAAGGTCTGAAAAAGAAAATCTGACAAAACAAATACAAGAAAAACAAGGTCAGTTGTCAGAACTAGACAAGTTACTCTCTTCATTTAAAAGTCTGTTAGAAGAAAAGGAGCAAGCAGAGATACAGATCAAAGAAGAATCTAAAACTGCAGTGGAGATGCTTCAGAATCAGTTAAAGGAGCTAAATGAGGCAGTAGCAGCCTTGTGTGGTGACCAAGAAATTATGAAGGCCACAGAACAGAGTCTAGACCCACCAATAGAGGAAGAGCATCAGCTGAGAAATAGCATTGAAAAGCTGAGAGCCCGCCTAGAAGCTGATGAAAAGAAGCAGCTCTGTGTCTTACAACAACTGAAGGAAAGTGAGCATCATGCAGATTTACTTAAGGGTAGAGTGGAGAACCTTGAAAGAGAGCTAGAGATAGCCAGGACAAACCAAGAGCATGCAGCTCTTGAGGCAGAGAATTCCAAAGGAGAGGTAGAGACCCTAAAAGCAAAAATAGAAGGGATGACCCAAAGTCTGAGAGGTCTGGAATTAGATGTTGTTACTATAAGGTCAGAAAAAGAAAATCTGACAAATGAATTACAAAAAGAGCAAGAGCGAATATCTGAATTAGAAATAATAAATTCATCATTTGAAAATATTTTGCAAGAAAAAGAGCAAGAGAAAGTACAGATGAAAGAAAAATCAAGCACTGCCATGGAGATGCTTCAAACACAATTAAAAGAGCTCAATGAGAGAGTGGCAGCCCTGCATAATGACCAAGAAGCCTGTAAGGCCAAAGAGCAGAATCTTAGTAGTCAAGTAGAGTGTCTTGAACTTGAGAAGGCTCAGTTGCTACAAGGCCTTGATGAGGCCAAAAATAATTATATTGTTTTGCAATCTTCAGTGAATGGCCTCATTCAAGAAGTAGAAGATGGCAAGCAGAAACTGGAGAAGAAGGATGAAGAAATCAGTAGACTGAAAAATCAAATTCAAGACCAAGAGCAGCTTGTCTCTAAACTGTCCCAGGTGGAAGGAGAGCACCAACTTTGGAAGGAGCAAAACTTAGAACTGAGAAATCTGACAGTGGAATTGGAGCAGAAGATCCAAGTGCTACAATCCAAAAATGCCTCTTTGCAGGACACATTAGAAGTGCTGCAGAGTTCTTACAAGAATCTAGAGAATGAGCTTGAATTGACAAAAATGGACAAAATGTCCTTTGTTGAAAAAGTAAACAAAATGACTGCAAAGGAAACTGAGCTGCAGAGGGAAATGCATGAGATGGCACAGAAAACAGCAGAGCTGCAAGAAGAACTCAGTGGAGAGAAAAATAGGCTAGCTGGAGAGTTGCAGTTACTGTTGGAAGAAATAAAGAGCAGCAAAGATCAATTGAAGGAGCTCACACTAGAAAATAGTGAATTGAAGAAGAGCCTAGATTGCATGCACAAAGACCAGGTGGAAAAGGAAGGGAAAGTGAGAGAGGAAATAGCTGAATATCAGCTACGGCTTCATGAAGCTGAAAAGAAACACCAGGCTTTGCTTTTGGACACAAACAAACAGTATGAAGTAGAAATCCAGACATACCGAGAGAAATTGACTTCTAAAGAAGAATGTCTCAGTTCACAGAAGCTGGAGATAGACCTTTTAAAGTCTAGTAAAGAAGAGCTCAATAATTCATTGAAAGCTACTACTCAGATTTTGGAAGAATTGAAGAAAACCAAGATGGACAATCTAAAATATGTAAATCAGTTGAAGAAGGAAAATGAACGTGCCCAGGGGAAAATGAAGTTGTTGATCAAATCCTGTAAACAGCTGGAAGAGGAAAAGGAGATACTGCAGAAAGAACTCTCTCAACTTCAAGCTGCACAGGAGAAGCAGAAAACAGGTACTGTTATGGATACCAAGGTCGATGAATTAACAACTGAGATCAAAGAACTGAAAGAAACTCTTGAAGAAAAAACCAAGGAGGCAGATGAATACTTGGATAAGTACTGTTCCTTGCTTATAAGCCATGAAAAGTTAGAGAAAGCTAAAGAGATGTTAGAGACACAAGTGGCCCATCTGTGTTCACAGCAATCTAAACAAGATTCCCGAGGGTCTCCTTTGCTAGGTCCAGTTGTTCCAGGACCATCTCCAATCCCTTCTGTTACTGAAAAGAGGTTATCATCTGGCCAAAATAAAGCTTCAGGCAAGAGGCAAAGATCCAGTGGAATATGGGAGAATGGTAGAGGACCAACACCTGCTACCCCAGAGAGCTTTTCTAAAAAAAGCAAGAAAGCAGTCATGAGTGGTATTCACCCTGCAGAAGACACGGAAGGTACTGAGTTTGAGCCAGAGGGACTTCCAGAAGTTGTAAAGAAAGGGTTTGCTGACATCCCGACAGGAAAGACTAGCCCATATATCCTGCGAAGAACAACCATGGCAACTCGGACCAGCCCCCGCCTGGCTGCACAGAAGTTAGCGCTATCCCCACTGAGTCTCGGCAAAGAAAATCTTGCAGAGTCCTCCAAACCAACAGCTGGTGGCAGCAGATCACAAAAGGTCAAAGTTGCTCAGCGGAGCCCAGTAGATTCAGGCACCATCCTCCGAGAACCCACCACGAAATCCGTCCCAGTCAATAATCTTCCTGAGAGAAGTCCGACTGACAGCCCCAGAGAGGGCCTGAGGGTCAAGCGAGGCCGACTTGTCCCCAGCCCCAAAGCTGGACTGGAGTCCAACGGCAGTGAGAACTGTAAGGTCCAGTGAAGGCACTTTGTGTGTCAGTACCCCTGGGAGGTGCCAGTCATTGAATAGATAAGGCTGTGCCTACAGGACTTCTCTTTAGTCAGGGCATGCTTTATTAGTGAGGAGAAAACAATTCCTTAGAAGTCTTAAATATATTGTACTCTTTAGATCTCCCATGTGTAGGTATTGAAAAAGTTTGGAAGCACTGATCACCTGTTAGCATTGCCATTCCTCTACTGCAATGTAAATAGTATAAAGCTATGTATATAAAGCTTTTTGGTAATATGTTACAATTAAAATGACAAGCACTATATCACAATCTCTGTTTGTATGTGGGTTTTACACTAAAAAAATGCAAAACACATTTTATTCTTCTAATTAACAGCTCCTAGGAAAATGTAGACTTTTGCTTTATGATATTCTATCTGTAGTATGAGGCATGGAATAGTTTTGTATCGGGAATTTCTCAGAGCTGAGTAAAATGAAGGAAAAGCATGTTATGTGTTTTTAAGGAAAATGTGCACACATATACATGTAGGAGTGTTTATCTTTCTCTTACAATCTGTTTTAGACATCTTTGCTTATGAAACCTGTACATATGTGTGTGTGGGTATGTGTTTATTTCCAGTGAGGGCTGCAGGCTTCCTAGAGGTGTGCTATACCATGCGTCTGTCGTTGTGCTTTTTTCTGTTTTTAGACCAATTTTTTACAGTTCTTTGGTAAGCATTGTCGTATCTGGTGATGGATTAACATATAGCCTTTGTTTTCTAATAAAATAGTCGCCTTCGTTTTCTGTAAAAAAAAAAAAAAAAAAAAAA AB091343GGCACGAGGGGCCGACGCGAGCGCCGCGCTTCGCTTCAGCTGCTAGCTGGCCCAAGGGAGGCGACCGCGG116AGGGTGGCGAGGGGCGGCCAGGACCCGCAGCCCCGGGGCCGGGCCGGTCCGGACCGCCAGGGAGGGCAGGTCAGTGGGCAGATCGCGTCCGCGGGATTCAATCTCTGCCCGCTCTGATAACAGTCCTTTTCCCTGGCGCTCACTTCGTGCCTGGCACCCGGCTGGGCGCCTCAAGACCGTTGTCTCTTCGATCGCTTCTTTGGACTTGGCGACCATTTCAGAGATGTCTTCCAGAAGTACCAAAGATTTAATTAAAAGTAAGTGGGGATCGAAGCCTAGTAACTCCAAATCCGAAACTACATTAGAAAAATTAAAGGGAGAAATTGCACACTTAAAGACATCAGTGGATGAAATCACAAGTGGGAAAGGAAAGCTGACTGATAAAGAGAGACACAGACTTTTGGAGAAAATTCGAGTCCTTGAGGCTGAGAAGGAGAAGAATGCTTATCAACTCACAGAGAAGGACAAAGAAATACAGCGACTGAGAGACCAACTGAAGGCCAGATATAGTACTACCGCATTGCTTGAACAGCTGGAAGAGACAACGAGAGAAGGAGAAAGGAGGGAGCAGGTGTTGAAAGCCTTATCTGAAGAGAAAGACGTATTGAAACAACAGTTGTCTGCTGCAACCTCACGAATTGCTGAACTTGAAAGCAAAACCAATACACTCCGTTTATCACAGACTGTGGCTCCAAACTGCTTCAACTCATCAATAAATAATATTCATGAAATGGAAATACAGCTGAAAGATGCTCTGGAGAAAAATCAGCAGTGGCTCGTGTATGATCAGCAGCGGGAAGTCTATGTAAAAGGACTTTTAGCAAAGATCTTTGAGTTGGAAAAGAAAACGGAAACAGCTGCTCATTCACTCCCACAGCAGACAAAAAAGCCTGAATCAGAAGGTTATCTTCAAGAAGAGAAGCAGAAATGTTACAACGATCTCTTGGCAAGTGCAAAAAAAGATCTTGAGGTTGAACGACAAACCATAACTCAGCTGAGTTTTGAACTGAGTGAATTTCGAAGAAAATATGAAGAAACCCAAAAAGAAGTTCACAATTTAAATCAGCTGTTGTATTCACAAAGAAGGGCAGATGTGCAACATCTGGAAGATGATAGGCATAAAACAGAGAAGATACAAAAACTCAGGGAAGAGAATGATATTGCTAGGGGAAAACTTGAAGAAGAGAAGAAGAGATCCGAAGAGCTCTTATCTCAGGTCCAGTTTCTTTACACATCTCTGCTAAAGCAGCAAGAAGAACAAACAAGGGTAGCTCTGTTGGAACAACAGATGCAGGCATGTACTTTAGACTTTGAAAATGAAAAACTCGACCGTCAACATGTGCAGCATCAATTGCATGTAATTCTTAAGGAGCTCCGAAAAGCAAGAAATCAAATAACACAGTTGGAATCCTTGAAACAGCTTCATGAGTTTGCCATCACAGAGCCATTAGTCACTTTCCAAGGAGAGACTGAAAACAGAGAAAAAGTTGCCGCCTCACCAAAAAGTCCCACTGCTGCACTCAATGAAAGCCTGGTGGAATGTCCCAAGTGCAATATACAGTATCCAGCCACTGAGCATCGCGATCTGCTTGTCCATGTGGAATACTGTTCAAAGTAGCAAAATAAGTATTTGTTTTGATATTAAAAGATTCAATACTGTATTTTCTGTTAGCTTGTGGGCATTTTGAATTATATATTTCACATTTTGCATAAAACTGCCTATCTACCTTTGACACTCCAGCATGCTAGTGAATCATGTATCTTTTAGGCTGCTGTGCATTTCTCTTGGCAGTGATACCTCCCTGACATGGTTCATCATCAGGCTGCAATGACAGAATGTGGTGAGCAGCGTCTACTGAGACTACTAACATTTTGCACTGTCAAAATACTTGGTGAGGAAAAGATAGCTCAGGTTATTGCTAATGGGTTAATGCACCAGCAAGCAAAATATTTTATGTTTTGGGGGTTTGAAAAATCAAAGATAATTAACCAAGGATCTTAACTGTGTTCGCATTTTTTATCCAAGCACTTAGAAAACCTACAATCCTAATTTTGATGTCCATTGTTAAGAGGTGGTGATAGATACTATTTTTTTTTTCATATTGTATAGCGGTTATTAGAAAAGTTGGGGATTTTCTTGATCTTTATTGCTGCTTACCATTGAAACTTAACCCAGCTGTGTTCCCCAACTCTGTTCTGCGCACGAAACAGTATCTGTTTGAGGCATAATCTTAAGTGGCCACACACAATGTTTTCTCTTATGTTATCTGGCAGTAACTGTAACTTGAATTACATTAGCACATTCTGCTTAGCTAAAATTGTTAAAATAAACTTTAATAAACCCATGTAGCCCTCTCATTTGATTGACAGTATTTTAGTTATTTTTGGCATTCTTAAAGCTGGGCAATGTAATGATCAGATCTTTGTTTGTCTGAACAGGTATTTTTATACATGCTTTTTGTAAACCAAAAACTTTTAAATTTCTTCAGGTTTTCTAACATGCTTACCACTGGGCTACTGTAAATGAGAAAAGAATAAAATTATTTAATGTTTTAAAAAAAAAAAAAAA BC006428GGCGGCTGAGCCTGAGCGGGGATGTAGAGGCGGCGGCAGCAGAGGCGGCACTGGCGGCAAGAGCAGACGC117CCGAGCCGAGCGAGAAGAGCGGCAGAGCCTTATCCCCTGAAGCCGGGCCCCGCGTCCCAGCCCTGCCCAGCCCGCGCCCAGCCATGCGCGCCGCCTGCTGAGTCCGGGCGCCGCACGCTGAGCCCTCCGCCCGCGAGCCGCGCTCAGCTCGGGGGTGATTAGTTGCTTTTTGTTGTTTTTTAATTTGGGCCGCGGGGAGGGGGAGGAGGGGCAGGTGCTGCAGGCTCCCCCCCCTCCCCGCCTCGGGCCAGCCGCGGCGGCGCGACTCGGGCTCCGGACCCGGGCACTGCTGGCGGCTGGAGCGGAGCGCACCGCGGCGGTGGTGCCCAGAGCGGAGCGCAGCTCCCTGCCCCGCCCCTCCCCCTCGGCCTCGCGGCGACGGCGGCGGTGGCGGCTTGGACGACTCGGAGAGCCGAGTGAAGACATTTCCACCTGGACACCTGACCATGTGCCTGCCCTGAGCAGCGAGGCCCACCAGGCATCTCTGTTGTGGGCAGCAGGGCCAGGTCCTGGTCTGTGGACCCTCGGCAGTTGGCAGGCTCCCTCTGCAGTGGGGTCTGGGCCTCGGCCCCACCATGTCGAGCCTCGGCGGTGGCTCCCAGGATGCCGGCGGCAGTAGCAGCAGCAGCACCAATGGCAGCGGTGGCAGTGGCAGCAGTGGCCCAAAGGCAGGAGCAGCAGACAAGAGTGCAGTGGTGGCTGCCGCCGCACCAGCCTCAGTGGCAGATGACACACCACCCCCCGAGCGTCGGAACAAGAGCGGTATCATCAGTGAGCCCCTCAACAAGAGCCTGCGCCGCTCCCGCCCGCTCTCCCACTACTCTTCTTTTGGCAGCAGTGGTGGTAGTGGCGGTGGCAGCATGATGGGCGGAGAGTCTGCTGACAAGGCCACTGCGGCTGCAGCCGCTGCCTCCCTGTTGGCCAATGGGCATGACCTGGCGGCGGCCATGGCGGTGGACAAAAGCAACCCTACCTCAAAGCACAAAAGTGGTGCTGTGGCCAGCCTGCTGAGCAAGGCAGAGCGGGCCACGGAGCTGGCAGCCGAGGGACAGCTGACGCTGCAGCAGTTTGCGCAGTCCACAGAGATGCTGAAGCGCGTGGTGCAGGAGCATCTCCCGCTGATGAGCGAGGCGGGTGCTGGCCTGCCTGACATGGAGGCTGTGGCAGGTGCCGAAGCCCTCAATGGCCAGTCCGACTTCCCCTACCTGGGCGCTTTCCCCATCAACCCAGGCCTCTTCATTATGACCCCGGCAGGTGTGTTCCTGGCCGAGAGCGCGCTGCACATGGCGGGCCTGGCTGAGTACCCCATGCAGGGAGAGCTGGCCTCTGCCATCAGCTCCGGCAAGAAGAAGCGGAAACGCTGCGGCATGTGCGCGCCCTGCCGGCGGCGCATCAACTGCGAGCAGTGCAGCAGTTGTAGGAATCGAAAGACTGGCCATCAGATTTGCAAATTCAGAAAATGTGAGGAACTCAAAAAGAAGCCTTCCGCTGCTCTGGAGAAGGTGATGCTTCCGACGGGAGCCGCCTTCCGGTGGTTTCAGTGACGGCGGCGGAACCCAAAGCTGCCCTCTCCGTGCAATGTCACTGCTCGTGTGGTCTCCAGCAAGGGATTCGGGCGAAGACAAACGGATGCACCCGTCTTTAGAACCAAAAATATTCTCTCACAGATTTCATTCCTGTTTTTATATATATATTTTTTGTTGTCGTTTTAACATCTCCACGTCCCTAGCATAAAAAGAAAAAGAAAAAAATTTAAACTGCTTTTTCGGAAGAACAACAACAAAAAAGAGGTAAAGACGAATCTATAAAGTACCGAGACTTCCTGGGCAAAGAATGGACAATCAGTTTCCTTCCTGTGTCGATGTCGATGTTGTCTGTGCAGGAGATGCAGTTTTTGTGTAGAGAATGTAAATTTTCTGTAACCTTTTGAAATCTAGTTACTAATAAGCACTACTGTAATTTAGCACAGTTTAACTCCACCCTCATTTAAACTTCCTTTGATTCTTTCCGACCATGAAATAGTGCATAGTTTGCCTGGAGAATCCACTCACGTTCATAAAGAGAATGTTGATGGCGCCGTGTAGAAGCCGCTCTGTATCCATCCACGCGTGCAGAGCTGCCAGCAGGGAGCTCACAGAAGGGGAGGGAGCACCAGGCCAGCTGAGCTGCACCCACAGTCCCGAGACTGGGATCCCCCACCCCAACAGTGATTTTGGAAAAAAAAATGAAAGTTCTGTTCGTTTATCCATTGCGATCTGGGGAGCCCCATCTCGATATTTCCAATCCTGGCTACTTTTCTTAGAGAAAATAAGTCCTTTTTTTCTGGCCTTGCTAATGGCAACAGAAGAAAGGGCTTCTTTGCGTGGTCCCCTGCTGGTGGGGGTGGGTCCCCAGGGGGCCCCCTGCGGCCTGGGCCCCCCTGCCCACGGCCAGCTTCCTGCTGATGAACATGCTGTTTGTATTGTTTTAGGAAACCAGGCTGTTTTGTGAATAAAACGAATGCATGTTTGTGTCACGAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA NM_005228CCCCGGCGCAGCGCGGCCGCAGCAGCCTCCGCCCCCCGCACGGTGTGAGCGCCCGACGCGGCCGAGGCGG118CCGGAGTCCCGAGCTAGCCCCGGCGGCCGCCGCCGCCCAGACCGGACGACAGGCCACCTCGTCGGCGTCCGCCCGAGTCCCCGCCTCGCCGCCAACGCCACAACCACCGCGCACGGCCCCCTGACTCCGTCCAGTATTGATCGGGAGAGCCGGAGCGAGCTCTTCGGGGAGCAGCGATGCGACCCTCCGGGACGGCCGGGGCAGCGCTCCTGGCGCTGCTGGCTGCGCTCTGCCCGGCGAGTCGGGCTCTGGAGGAAAAGAAAGTTTGCCAAGGCACGAGTAACAAGCTCACGCAGTTGGGCACTTTTGAAGATCATTTTCTCAGCCTCCAGAGGATGTTCAATAACTGTGAGGTGGTCCTTGGGAATTTGGAAATTACCTATGTGCAGAGGAATTATGATCTTTCCTTCTTAAAGACCATCCAGGAGGTGGCTGGTTATGTCCTCATTGCCCTCAACACAGTGGAGCGAATTCCTTTGGAAAACCTGCAGATCATCAGAGGAAATATGTACTACGAAAATTCCTATGCCTTAGCAGTCTTATCTAACTATGATGCAAATAAAACCGGACTGAAGGAGCTGCCCATGAGAAATTTACAGGAAATCCTGCATGGCGCCGTGCGGTTCAGCAACAACCCTGCCCTGTGCAACGTGGAGAGCATCCAGTGGCGGGACATAGTCAGCAGTGACTTTCTCAGCAACATGTCGATGGACTTCCAGAACCACCTGGGCAGCTGCCAAAAGTGTGATCCAAGCTGTCCCAATGGGAGCTGCTGGGGTGCAGGAGAGGAGAACTGCCAGAAACTGACCAAAATCATCTGTGCCCAGCAGTGCTCCGGGCGCTGCCGTGGCAAGTCCCCCAGTGACTGCTGCCACAACCAGTGTGCTGCAGGCTGCACAGGCCCCCGGGAGAGCGACTGCCTGGTCTGCCGCAAATTCCGAGACGAAGCCACGTGCAAGGACACCTGCCCCCCACTCATGCTCTACAACCCCACCACGTACCAGATGGATGTGAACCCCGAGGGCAAATACAGCTTTGGTGCCACCTGCGTGAAGAAGTGTCCCCGTAATTATGTGGTGACAGATCACGGCTCGTGCGTCCGAGCCTGTGGGGCCGACAGCTATGAGATGGAGGAAGACGGCGTCCGCAAGTGTAAGAAGTGCGAAGGGCCTTGCCGCAAAGTGTGTAACGGAATAGGTATTGGTGAATTTAAAGACTCACTCTCCATAAATGCTACGAATATTAAACACTTCAAAAACTGCACCTCCATCAGTGGCGATCTCCACATCCTGCCGGTGGCATTTAGGGGTGACTCCTTCACACATACTCCTCCTCTGGATCCACAGGAACTGGATATTCTGAAAACCGTAAAGGAAATCACAGGGTTTTTGCTGATTCAGGCTTGGCCTGAAAACAGGACGGACCTCCATGCCTTTGAGAACCTAGAAATCATACGCGGCAGGACCAAGCAACATGGTCAGTTTTCTCTTGCAGTCGTCAGCCTGAACATAACATCCTTGGGATTACGCTCCCTCAAGGAGATAAGTGATGGAGATGTGATAATTTCAGGAAACAAAAATTTGTGCTATGCAAATACAATAAACTGGAAAAAACTGTTTGGGACCTCCGGTCAGAAAACCAAAATTATAAGCAACAGAGGTGAAAACAGCTGCAAGGCCACAGGCCAGGTCTGCCATGCCTTGTGCTCCCCCGAGGGCTGCTGGGGCCCGGAGCCCAGGGACTGCGTCTCTTGCCGGAATGTCAGCCGAGGCAGGGAATGCGTGGACAAGTGCAACCTTCTGGAGGGTGAGCCAAGGGAGTTTGTGGAGAACTCTGAGTGCATACAGTGCCACCCAGAGTGCCTGCCTCAGGCCATGAACATCACCTGCACAGGACGGGGACCAGACAACTGTATCCAGTGTGCCCACTACATTGACGGCCCCCACTGCGTCAAGACCTGCCCGGCAGGAGTCATGGGAGAAAACAACACCCTGGTCTGGAAGTACGCAGACGCCGGCCATGTGTGCCACCTGTGCCATCCAAACTGCACCTACGGATGCACTGGGCCAGGTCTTGAAGGCTGTCCAACGAATGGGCCTAAGATCCCGTCCATCGCCACTGGGATGGTGGGGGCCCTCCTCTTGCTGCTGGTGGTGGCCCTGGGGATCGGCCTCTTCATGCGAAGGCGCCACATCGTTCGGAAGCGCACGCTGCGGAGGCTGCTGCAGGAGAGGGAGCTTGTGGAGCCTCTTACACCCAGTGGAGAAGCTCCCAACCAAGCTCTCTTGAGGATCTTGAAGGAAACTGAATTCAAAAAGATCAAAGTGCTGGGCTCCGGTGCGTTCGGCACGGTGTATAAGGGACTCTGGATCCCAGAAGGTGAGAAAGTTAAAATTCCCGTCGCTATCAAGGAATTAAGAGAAGCAACATCTCCGAAAGCCAACAAGGAAATCCTCGATGAAGCCTACGTGATGGCCAGCGTGGACAACCCCCACGTGTGCCGCCTGCTGGGCATCTGCCTCACCTCCACCGTGCAGCTCATCACGCAGCTCATGCCCTTCGGCTGCCTCCTGGACTATGTCCGGGAACACAAAGACAATATTGGCTCCCAGTACCTGCTCAACTGGTGTGTGCAGATCGCAAAGGGCATGAACTACTTGGAGGACCGTCGCTTGGTGCACCGCGACCTGGCAGCCAGGAACGTACTGGTGAAAACACCGCAGCATGTCAAGATCACAGATTTTGGGCTGGCCAAACTGCTGGGTGCGGAAGAGAAAGAATACCATGCAGAAGGAGGCAAAGTGCCTATCAAGTGGATGGCATTGGAATCAATTTTACACAGAATCTATACCCACCAGAGTGATGTCTGGAGCTACGGGGTGACCGTTTGGGAGTTGATGACCTTTGGATCCAAGCCATATGACGGAATCCCTGCCAGCGAGATCTCCTCCATCCTGGAGAAAGGAGAACGCCTCCCTCAGCCACCCATATGTACCATCGATGTCTACATGATCATGGTCAAGTGCTGGATGATAGACGCAGATAGTCGCCCAAAGTTCCGTGAGTTGATCATCGAATTCTCCAAAATGGCCCGAGACCCCCAGCGCTACCTTGTCATTCAGGGGGATGAAAGAATGCATTTGCCAAGTCCTACAGACTCCAACTTCTACCGTGCCCTGATGGATGAAGAAGACATGGACGACGTGGTGGATGCCGACGAGTACCTCATCCCACAGCAGGGCTTCTTCAGCAGCCCCTCCACGTCACGGACTCCCCTCCTGAGCTCTCTGAGTGCAACCAGCAACAATTCCACCGTGGCTTGCATTGATAGAAATGGGCTGCAAAGCTGTCCCATCAAGGAAGACAGCTTCTTGCAGCGATACAGCTCAGACCCCACAGGCGCCTTGACTGAGGACAGCATAGACGACACCTTCCTCCCAGTGCCTGAATACATAAACCAGTCCGTTCCCAAAAGGCCCGCTGGCTCTGTGCAGAATCCTGTCTATCACAATCAGCCTCTGAACCCCGCGCCCAGCAGAGACCCACACTACCAGGACCCCCACAGCACTGCAGTGGGCAACCCCGAGTATCTCAACACTGTCCAGCCCACCTGTGTCAACAGCACATTCGACAGCCCTGCCCACTGGGCCCAGAAAGGCAGCCACCAAATTAGCCTGGACAACCCTGACTACCAGCAGGACTTCTTTCCCAAGGAAGCCAAGCCAAATGGCATCTTTAAGGGCTCCACAGCTGAAAATGCAGAATACCTAAGGGTCGCGCCACAAAGCAGTGAATTTATTGGAGCATGACCACGGAGGATAGTATGAGCCCTAAAAATCCAGACTCTTTCGATACCCAGGACCAAGCCACAGCAGGTCCTCCATCCCAACAGCCATGCCCGCATTAGCTCTTAGACCCACAGACTGGTTTTGCAACGTTTACACCGACTAGCCAGGAAGTACTTCCACCTCGGGCACATTTTGGGAAGTTGCATTCCTTTGTCTTCAAACTGTGAAGCATTTACAGAAACGCATCCAGCAAGAATATTGTCCCTTTGAGCAGAAATTTATCTTTCAAAGAGGTATATTTGAAAAAAAAAAAAAGTATATGTGAGGATTTTTATTGATTGGGGATCTTGGAGTTTTTCATTGTCGCTATTGATTTTTACTTCAATGGGCTCTTCCAACAAGGAAGAAGCTTGCTGGTAGCACTTGCTACCCTGAGTTCATCCAGGCCCAACTGTGAGCAAGGAGCACAAGCCACAAGTCTTCCAGAGGATGCTTGATTCCAGTGGTTCTGCTTCAAGGCTTCCACTGCAAAACACTAAAGATCCAAGAAGGCCTTCATGGCCCCAGCAGGCCGGATCGGTACTGTATCAAGTCATGGCAGGTACAGTAGGATAAGCCACTCTGTCCCTTCCTGGGCAAAGAAGAAACGGAGGGGATGGAATTCTTCCTTAGACTTACTTTTGTAAAAATGTCCCCACGGTACTTACTCCCCACTGATGGACCAGTGGTTTCCAGTCATGAGCGTTAGACTGACTTGTTTGTCTTCCATTCCATTGTTTTGAAACTCAGTATGCTGCCCCTGTCTTGCTGTCATGAAATCAGCAAGAGAGGATGACACATCAAATAATAACTCGGATTCCAGCCCACATTGGATTCATCAGCATTTGGACCAATAGCCCACAGCTGAGAATGTGGAATACCTAAGGATAGCACCGCTTTTGTTCTCGCAAAAACGTATCTCCTAATTTGAGGCTCAGATGAAATGCATCAGGTCCTTTGGGGCATAGATCAGAAGACTACAAAAATGAAGCTGCTCTGAAATCTCCTTTAGCCATCACCCCAACCCCCCAAAATTAGTTTGTGTTACTTATGGAAGATAGTTTTCTCCTTTTACTTCACTTCAAAAGCTTTTTACTCAAAGAGTATATGTTCCCTCCAGGTCAGCTGCCCCCAAACCCCCTCCTTACGCTTTGTCACACAAAAAGTGTCTCTGCCTTGAGTCATCTATTCAAGCACTTACAGCTCTGGCCACAACAGGGCATTTTACAGGTGCGAATGACAGTAGCATTATGAGTAGTGTGGAATTCAGGTAGTAAATATGAAACTAGGGTTTGAAATTGATAATGCTTTCACAACATTTGCAGATGTTTTAGAAGGAAAAAAGTTCCTTCCTAAAATAATTTCTCTACAATTGGAAGATTGGAAGATTCAGCTAGTTAGGAGCCCACCTTTTTTCCTAATCTGTGTGTGCCCTGTAACCTGACTGGTTAACAGCAGTCCTTTGTAAACAGTGTTTTAAACTCTCCTAGTCAATATCCACCCCATCCAATTTATCAAGGAAGAAATGGTTCAGAAAATATTTTCAGCCTACAGTTATGTTCAGTCACACACACATACAAAATGTTCCTTTTGCTTTTAAAGTAATTTTTGACTCCCAGATCAGTCAGAGCCCCTACAGCATTGTTAAGAAAGTATTTGATTTTTGTCTCAATGAAAATAAAACTATATTCATTTCCACTCTAAAAAAAAAAAAAAAAA NM_001005862GTTCCCGGATTTTTGTGGGCGCCTGCCCCGCCCCTCGTCCCCCTGCTGTGTCCATATATCGAGGCGATAG119GGTTAAGGGAAGGCGGACGCCTGATGGGTTAATGAGCAAACTGAAGTGTTTTCCATGATCTTTTTTGAGTCGCAATTGAAGTACCACCTCCCGAGGGTGATTGCTTCCCCATGCGGGGTAGAACCTTTGCTGTCCTGTTCACCACTCTACCTCCAGCACAGAATTTGGCTTATGCCTACTCAATGTGAAGATGATGAGGATGAAAACCTTTGTGATGATCCACTTCCACTTAATGAATGGTGGCAAAGCAAAGCTATATTCAAGACCACATGCAAAGCTACTCCCTGAGCAAAGAGTCACAGATAAAACGGGGGCACCAGTAGAATGGCCAGGACAAACGCAGTGCAGCACAGAGACTCAGACCCTGGCAGCCATGCCTGCGCAGGCAGTGATGAGAGTGACATGTACTGTTGTGGACATGCACAAAAGTGAGTGTGCACCGGCACAGACATGAAGCTGCGGCTCCCTGCCAGTCCCGAGACCCACCTGGACATGCTCCGCCACCTCTACCAGGGCTGCCAGGTGGTGCAGGGAAACCTGGAACTCACCTACCTGCCCACCAATGCCAGCCTGTCCTTCCTGCAGGATATCCAGGAGGTGCAGGGCTACGTGCTCATCGCTCACAACCAAGTGAGGCAGGTCCCACTGCAGAGGCTGCGGATTGTGCGAGGCACCCAGCTCTTTGAGGACAACTATGCCCTGGCCGTGCTAGACAATGGAGACCCGCTGAACAATACCACCCCTGTCACAGGGGCCTCCCCAGGAGGCCTGCGGGAGCTGCAGCTTCGAAGCCTCACAGAGATCTTGAAAGGAGGGGTCTTGATCCAGCGGAACCCCCAGCTCTGCTACCAGGACACGATTTTGTGGAAGGACATCTTCCACAAGAACAACCAGCTGGCTCTCACACTGATAGACACCAACCGCTCTCGGGCCTGCCACCCCTGTTCTCCGATGTGTAAGGGCTCCCGCTGCTGGGGAGAGAGTTCTGAGGATTGTCAGAGCCTGACGCGCACTGTCTGTGCCGGTGGCTGTGCCCGCTGCAAGGGGCCACTGCCCACTGACTGCTGCCATGAGCAGTGTGCTGCCGGCTGCACGGGCCCCAAGCACTCTGACTGCCTGGCCTGCCTCCACTTCAACCACAGTGGCATCTGTGAGCTGCACTGCCCAGCCCTGGTCACCTACAACACAGACACGTTTGAGTCCATGCCCAATCCCGAGGGCCGGTATACATTCGGCGCCAGCTGTGTGACTGCCTGTCCCTACAACTACCTTTCTACGGACGTGGGATCCTGCACCCTCGTCTGCCCCCTGCACAACCAAGAGGTGACAGCAGAGGATGGAACACAGCGGTGTGAGAAGTGCAGCAAGCCCTGTGCCCGAGTGTGCTATGGTCTGGGCATGGAGCACTTGCGAGAGGTGAGGGCAGTTACCAGTGCCAATATCCAGGAGTTTGCTGGCTGCAAGAAGATCTTTGGGAGCCTGGCATTTCTGCCGGAGAGCTTTGATGGGGACCCAGCCTCCAACACTGCCCCGCTCCAGCCAGAGCAGCTCCAAGTGTTTGAGACTCTGGAAGAGATCACAGGTTACCTATACATCTCAGCATGGCCGGACAGCCTGCCTGACCTCAGCGTCTTCCAGAACCTGCAAGTAATCCGGGGACGAATTCTGCACAATGGCGCCTACTCGCTGACCCTGCAAGGGCTGGGCATCAGCTGGCTGGGGCTGCGCTCACTGAGGGAACTGGGCAGTGGACTGGCCCTCATCCACCATAACACCCACCTCTGCTTCGTGCACACGGTGCCCTGGGACCAGCTCTTTCGGAACCCGCACCAAGCTCTGCTCCACACTGCCAACCGGCCAGAGGACGAGTGTGTGGGCGAGGGCCTGGCCTGCCACCAGCTGTGCGCCCGAGGGCACTGCTGGGGTCCAGGGCCCACCCAGTGTGTCAACTGCAGCCAGTTCCTTCGGGGCCAGGAGTGCGTGGAGGAATGCCGAGTACTGCAGGGGCTCCCCAGGGAGTATGTGAATGCCAGGCACTGTTTGCCGTGCCACCCTGAGTGTCAGCCCCAGAATGGCTCAGTGACCTGTTTTGGACCGGAGGCTGACCAGTGTGTGGCCTGTGCCCACTATAAGGACCCTCCCTTCTGCGTGGCCCGCTGCCCCAGCGGTGTGAAACCTGACCTCTCCTACATGCCCATCTGGAAGTTTCCAGATGAGGAGGGCGCATGCCAGCCTTGCCCCATCAACTGCACCCACTCCTGTGTGGACCTGGATGACAAGGGCTGCCCCGCCGAGCAGAGAGCCAGCCCTCTGACGTCCATCATCTCTGCGGTGGTTGGCATTCTGCTGGTCGTGGTCTTGGGGGTGGTCTTTGGGATCCTCATCAAGCGACGGCAGCAGAAGATCCGGAAGTACACGATGCGGAGACTGCTGCAGGAAACGGAGCTGGTGGAGCCGCTGACACCTAGCGGAGCGATGCCCAACCAGGCGCAGATGCGGATCCTGAAAGAGACGGAGCTGAGGAAGGTGAAGGTGCTTGGATCTGGCGCTTTTGGCACAGTCTACAAGGGCATCTGGATCCCTGATGGGGAGAATGTGAAAATTCCAGTGGCCATCAAAGTGTTGAGGGAAAACACATCCCCCAAAGCCAACAAAGAAATCTTAGACGAAGCATACGTGATGGCTGGTGTGGGCTCCCCATATGTCTCCCGCCTTCTGGGCATCTGCCTGACATCCACGGTGCAGCTGGTGACACAGCTTATGCCCTATGGCTGCCTCTTAGACCATGTCCGGGAAAACCGCGGACGCCTGGGCTCCCAGGACCTGCTGAACTGGTGTATGCAGATTGCCAAGGGGATGAGCTACCTGGAGGATGTGCGGCTCGTACACAGGGACTTGGCCGCTCGGAACGTGCTGGTCAAGAGTCCCAACCATGTCAAAATTACAGACTTCGGGCTGGCTCGGCTGCTGGACATTGACGAGACAGAGTACCATGCAGATGGGGGCAAGGTGCCCATCAAGTGGATGGCGCTGGAGTCCATTCTCCGCCGGCGGTTCACCCACCAGAGTGATGTGTGGAGTTATGGTGTGACTGTGTGGGAGCTGATGACTTTTGGGGCCAAACCTTACGATGGGATCCCAGCCCGGGAGATCCCTGACCTGCTGGAAAAGGGGGAGCGGCTGCCCCAGCCCCCCATCTGCACCATTGATGTCTACATGATCATGGTCAAATGTTGGATGATTGACTCTGAATGTCGGCCAAGATTCCGGGAGTTGGTGTCTGAATTCTCCCGCATGGCCAGGGACCCCCAGCGCTTTGTGGTCATCCAGAATGAGGACTTGGGCCCAGCCAGTCCCTTGGACAGCACCTTCTACCGCTCACTGCTGGAGGACGATGACATGGGGGACCTGGTGGATGCTGAGGAGTATCTGGTACCCCAGCAGGGCTTCTTCTGTCCAGACCCTGCCCCGGGCGCTGGGGGCATGGTCCACCACAGGCACCGCAGCTCATCTACCAGGAGTGGCGGTGGGGACCTGACACTAGGGCTGGAGCCCTCTGAAGAGGAGGCCCCCAGGTCTCCACTGGCACCCTCCGAAGGGGCTGGCTCCGATGTATTTGATGGTGACCTGGGAATGGGGGCAGCCAAGGGGCTGCAAAGCCTCCCCACACATGACCCCAGCCCTCTACAGCGGTACAGTGAGGACCCCACAGTACCCCTGCCCTCTGAGACTGATGGCTACGTTGCCCCCCTGACCTGCAGCCCCCAGCCTGAATATGTGAACCAGCCAGATGTTCGGCCCCAGCCCCCTTCGCCCCGAGAGGGCCCTCTGCCTGCTGCCCGACCTGCTGGTGCCACTCTGGAAAGGCCCAAGACTCTCTCCCCAGGGAAGAATGGGGTCGTCAAAGACGTTTTTGCCTTTGGGGGTGCCGTGGAGAACCCCGAGTACTTGACACCCCAGGGAGGAGCTGCCCCTCAGCCCCACCCTCCTCCTGCCTTCAGCCCAGCCTTCGACAACCTCTATTACTGGGACCAGGACCCACCAGAGCGGGGGGCTCCACCCAGCACCTTCAAAGGGACACCTACGGCAGAGAACCCAGAGTACCTGGGTCTGGACGTGCCAGTGTGAACCAGAAGGCCAAGTCCGCAGAAGCCCTGATGTGTCCTCAGGGAGCAGGGAAGGCCTGACTTCTGCTGGCATCAAGAGGTGGGAGGGCCCTCCGACCACTTCCAGGGGAACCTGCCATGCCAGGAACCTGTCCTAAGGAACCTTCCTTCCTGCTTGAGTTCCCAGATGGCTGGAAGGGGTCCAGCCTCGTTGGAAGAGGAACAGCACTGGGGAGTCTTTGTGGATTCTGAGGCCCTGCCCAATGAGACTCTAGGGTCCAGTGGATGCCACAGCCCAGCTTGGCCCTTTCCTTCCAGATCCTGGGTACTGAAAGCCTTAGGGAAGCTGGCCTGAGAGGGGAAGCGGCCCTAAGGGAGTGTCTAAGAACAAAAGCGACCCATTCAGAGACTGTCCCTGAAACCTAGTACTGCCCCCCATGAGGAAGGAACAGCAATGGTGTCAGTATCCAGGCTTTGTACAGAGTGCTTTTCTGTTTAGTTTTTACTTTTTTTGTTTTGTTTTTTTAAAGATGAAATAAAGACCCAGGGGGAGAATGGGTGTTGTATGGGGAGGCAAGTGTGGGGGGTCCTTCTCCACACCCACTTTGTCCATTTGCAAATATATTTTGGAAAACAGCTA NM_001122742ATGGTCATAACAGCCTCCTGTCTACCGACTCAGAACGGATTTTACCAAAACTGAAAATGCAGGCTCCATG120CTCAGAAGCTCTTTAACAGGCTCGAAAGGTCCATGCTCCTTTCTCCTGCCCATTCTATAGCATAAGAAGACAGTCTCTGAGTGATAATCTTCTCTTCAAGAAGAAGAAAACTAGGAAGGAGTAAGCACAAAGATCTCTTCACATTCTCCGGGACTGCGGTACCAAATATCAGCACAGCACTTCTTGAAAAAGGATGTAGATTTTAATCTGAACTTTGAACCATCACTGAGGTGGCCCGCCGGTTTCTGAGCCTTCTGCCCTGCGGGGACACGGTCTGCACCCTGCCCGCGGCCACGGACCATGACCATGACCCTCCACACCAAAGCATCTGGGATGGCCCTACTGCATCAGATCCAAGGGAACGAGCTGGAGCCCCTGAACCGTCCGCAGCTCAAGATCCCCCTGGAGCGGCCCCTGGGCGAGGTGTACCTGGACAGCAGCAAGCCCGCCGTGTACAACTACCCCGAGGGCGCCGCCTACGAGTTCAACGCCGCGGCCGCCGCCAACGCGCAGGTCTACGGTCAGACCGGCCTCCCCTACGGCCCCGGGTCTGAGGCTGCGGCGTTCGGCTCCAACGGCCTGGGGGGTTTCCCCCCACTCAACAGCGTGTCTCCGAGCCCGCTGATGCTACTGCACCCGCCGCCGCAGCTGTCGCCTTTCCTGCAGCCCCACGGCCAGCAGGTGCCCTACTACCTGGAGAACGAGCCCAGCGGCTACACGGTGCGCGAGGCCGGCCCGCCGGCATTCTACAGGCCAAATTCAGATAATCGACGCCAGGGTGGCAGAGAAAGATTGGCCAGTACCAATGACAAGGGAAGTATGGCTATGGAATCTGCCAAGGAGACTCGCTACTGTGCAGTGTGCAATGACTATGCTTCAGGCTACCATTATGGAGTCTGGTCCTGTGAGGGCTGCAAGGCCTTCTTCAAGAGAAGTATTCAAGGACATAACGACTATATGTGTCCAGCCACCAACCAGTGCACCATTGATAAAAACAGGAGGAAGAGCTGCCAGGCCTGCCGGCTCCGCAAATGCTACGAAGTGGGAATGATGAAAGGTGGGATACGAAAAGACCGAAGAGGAGGGAGAATGTTGAAACACAAGCGCCAGAGAGATGATGGGGAGGGCAGGGGTGAAGTGGGGTCTGCTGGAGACATGAGAGCTGCCAACCTTTGGCCAAGCCCGCTCATGATCAAACGCTCTAAGAAGAACAGCCTGGCCTTGTCCCTGACGGCCGACCAGATGGTCAGTGCCTTGTTGGATGCTGAGCCCCCCATACTCTATTCCGAGTATGATCCTACCAGACCCTTCAGTGAAGCTTCGATGATGGGCTTACTGACCAACCTGGCAGACAGGGAGCTGGTTCACATGATCAACTGGGCGAAGAGGGTGCCAGGCTTTGTGGATTTGACCCTCCATGATCAGGTCCACCTTCTAGAATGTGCCTGGCTAGAGATCCTGATGATTGGTCTCGTCTGGCGCTCCATGGAGCACCCAGGGAAGCTACTGTTTGCTCCTAACTTGCTCTTGGACAGGAACCAGGGAAAATGTGTAGAGGGCATGGTGGAGATCTTCGACATGCTGCTGGCTACATCATCTCGGTTCCGCATGATGAATCTGCAGGGAGAGGAGTTTGTGTGCCTCAAATCTATTATTTTGCTTAATTCTGGAGTGTACACATTTCTGTCCAGCACCCTGAAGTCTCTGGAAGAGAAGGACCATATCCACCGAGTCCTGGACAAGATCACAGACACTTTGATCCACCTGATGGCCAAGGCAGGCCTGACCCTGCAGCAGCAGCACCAGCGGCTGGCCCAGCTCCTCCTCATCCTCTCCCACATCAGGCACATGAGTAACAAAGGCATGGAGCATCTGTACAGCATGAAGTGCAAGAACGTGGTGCCCCTCTATGACCTGCTGCTGGAGATGCTGGACGCCCACCGCCTACATGCGCCCACTAGCCGTGGAGGGGCATCCGTGGAGGAGACGGACCAAAGCCACTTGGCCACTGCGGGCTCTACTTCATCGCATTCCTTGCAAAAGTATTACATCACGGGGGAGGCAGAGGGTTTCCCTGCCACGGTCTGAGAGCTCCCTGGCTCCCACACGGTTCAGATAATCCCTGCTGCATTTTACCCTCATCATGCACCACTTTAGCCAAATTCTGTCTCCTGCATACACTCCGGCATGCATCCAACACCAATGGCTTTCTAGATGAGTGGCCATTCATTTGCTTGCTCAGTTCTTAGTGGCACATCTTCTGTCTTCTGTTGGGAACAGCCAAAGGGATTCCAAGGCTAAATCTTTGTAACAGCTCTCTTTCCCCCTTGCTATGTTACTAAGCGTGAGGATTCCCGTAGCTCTTCACAGCTGAACTCAGTCTATGGGTTGGGGCTCAGATAACTCTGTGCATTTAAGCTACTTGTAGAGACCCAGGCCTGGAGAGTAGACATTTTGCCTCTGATAAGCACTTTTTAAATGGCTCTAAGAATAAGCCACAGCAAAGAATTTAAAGTGGCTCCTTTAATTGGTGACTTGGAGAAAGCTAGGTCAAGGGTTTATTATAGCACCCTCTTGTATTCCTATGGCAATGCATCCTTTTATGAAAGTGGTACACCTTAAAGCTTTTATATGACTGTAGCAGAGTATCTGGTGATTGTCAATTCATTCCCCCTATAGGAATACAAGGGGCACACAGGGAAGGCAGATCCCCTAGTTGGCAAGACTATTTTAACTTGATACACTGCAGATTCAGATGTGCTGAAAGCTCTGCCTCTGGCTTTCCGGTCATGGGTTCCAGTTAATTCATGCCTCCCATGGACCTATGGAGAGCAGCAAGTTGATCTTAGTTAAGTCTCCCTATATGAGGGATAAGTTCCTGATTTTTGTTTTTATTTTTGTGTTACAAAAGAAAGCCCTCCCTCCCTGAACTTGCAGTAAGGTCAGCTTCAGGACCTGTTCCAGTGGGCACTGTACTTGGATCTTCCCGGCGTGTGTGTGCCTTACACAGGGGTGAACTGTTCACTGTGGTGATGCATGATGAGGGTAAATGGTAGTTGAAAGGAGCAGGGGCCCTGGTGTTGCATTTAGCCCTGGGGCATGGAGCTGAACAGTACTTGTGCAGGATTGTTGTGGCTACTAGAGAACAAGAGGGAAAGTAGGGCAGAAACTGGATACAGTTCTGAGGCACAGCCAGACTTGCTCAGGGTGGCCCTGCCACAGGCTGCAGCTACCTAGGAACATTCCTTGCAGACCCCGCATTGCCCTTTGGGGGTGCCCTGGGATCCCTGGGGTAGTCCAGCTCTTCTTCATTTCCCAGCGTGGCCCTGGTTGGAAGAAGCAGCTGTCACAGCTGCTGTAGACAGCTGTGTTCCTACAATTGGCCCAGCACCCTGGGGCACGGGAGAAGGGTGGGGACCGTTGCTGTCACTACTCAGGCTGACTGGGGCCTGGTCAGATTACGTATGCCCTTGGTGGTTTAGAGATAATCCAAAATCAGGGTTTGGTTTGGGGAAGAAAATCCTCCCCCTTCCTCCCCCGCCCCGTTCCCTACCGCCTCCACTCCTGCCAGCTCATTTCCTTCAATTTCCTTTGACCTATAGGCTAAAAAAGAAAGGCTCATTCCAGCCACAGGGCAGCCTTCCCTGGGCCTTTGCTTCTCTAGCACAATTATGGGTTACTTCCTTTTTCTTAACAAAAAAGAATGTTTGATTTCCTCTGGGTGACCTTATTGTCTGTAATTGAAACCCTATTGAGAGGTGATGTCTGTGTTAGCCAATGACCCAGGTGAGCTGCTCGGGCTTCTCTTGGTATGTCTTGTTTGGAAAAGTGGATTTCATTCATTTCTGATTGTCCAGTTAAGTGATCACCAAAGGACTGAGAATCTGGGAGGGCAAAAAAAAAAAAAAAGTTTTTATGTGCACTTAAATTTGGGGACAATTTTATGTATCTGTGTTAAGGATATGTTTAAGAACATAATTCTTTTGTTGCTGTTTGTTTAAGAAGCACCTTAGTTTGTTTAAGAAGCACCTTATATAGTATAATATATATTTTTTTGAAATTACATTGCTTGTTTATCAGACAATTGAATGTAGTAATTCTGTTCTGGATTTAATTTGACTGGGTTAACATGCAAAAACCAAGGAAAAATATTTAGTTTTTTTTTTTTTTTTTGTATACTTTTCAAGCTACCTTGTCATGTATACAGTCATTTATGCCTAAAGCCTGGTGATTATTCATTTAAATGAAGATCACATTTCATATCAACTTTTGTATCCACAGTAGACAAAATAGCACTAATCCAGATGCCTATTGTTGGATACTGAATGACAGACAATCTTATGTAGCAAAGATTATGCCTGAAAAGGAAAATTATTCAGGGCAGCTAATTTTGCTTTTACCAAAATATCAGTAGTAATATTTTTGGACAGTAGCTAATGGGTCAGTGGGTTCTTTTTAATGTTTATACTTAGATTTTCTTTTAAAAAAATTAAAATAAAACAAAAAAAAATTTCTAGGACTAGACGATGTAATACCAGCTAAAGCCAAACAATTATACAGTGGAAGGTTTTACATTATTCATCCAATGTGTTTCTATTCATGTTAAGATACTACTACATTTGAAGTGGGCAGAGAACATCAGATGATTGAAATGTTCGCCCAGGGGTCTCCAGCAACTTTGGAAATCTCTTTGTATTTTTACTTGAAGTGCCACTAATGGACAGCAGATATTTTCTGGCTGATGTTGGTATTGGGTGTAGGAACATGATTTAAAAAAAAACTCTTGCCTCTGCTTTCCCCCACTCTGAGGCAAGTTAAAATGTAAAAGATGTGATTTATCTGGGGGGCTCAGGTATGGTGGGGAAGTGGATTCAGGAATCTGGGGAATGGCAAATATATTAAGAAGAGTATTGAAAGTATTTGGAGGAAAATGGTTAATTCTGGGTGTGCACCAGGGTTCAGTAGAGTCCACTTCTGCCCTGGAGACCACAAATCAACTAGCTCCATTTACAGCCATTTCTAAAATGGCAGCTTCAGTTCTAGAGAAGAAAGAACAACATCAGCAGTAAAGTCCATGGAATAGCTAGTGGTCTGTGTTTCTTTTCGCCATTGCCTAGCTTGCCGTAATGATTCTATAATGCCATCATGCAGCAATTATGAGAGGCTAGGTCATCCAAAGAGAAGACCCTATCAATGTAGGTTGCAAAATCTAACCCCTAAGGAAGTGCAGTCTTTGATTTGATTTCCCTAGTAACCTTGCAGATATGTTTAACCAAGCCATAGCCCATGCCTTTTGAGGGCTGAACAAATAAGGGACTTACTGATAATTTACTTTTGATCACATTAAGGTGTTCTCACCTTGAAATCTTATACACTGAAATGGCCATTGATTTAGGCCACTGGCTTAGAGTACTCCTTCCCCTGCATGACACTGATTACAAATACTTTCCTATTCATACTTTCCAATTATGAGATGGACTGTGGGTACTGGGAGTGATCACTAACACCATAGTAATGTCTAATATTCACAGGCAGATCTGCTTGGGGAAGCTAGTTATGTGAAAGGCAAATAGAGTCATACAGTAGCTCAAAAGGCAACCATAATTCTCTTTGGTGCAGGTCTTGGGAGCGTGATCTAGATTACACTGCACCATTCCCAAGTTAATCCCCTGAAAACTTACTCTCAACTGGAGCAAATGAACTTTGGTCCCAAATATCCATCTTTTCAGTAGCGTTAATTATGCTCTGTTTCCAACTGCATTTCCTTTCCAATTGAATTAAAGTGTGGCCTCGTTTTTAGTCATTTAAAATTGTTTTCTAAGTAATTGCTGCCTCTATTATGGCACTTCAATTTTGCACTGTCTTTTGAGATTCAAGAAAAATTTCTATTCTTTTTTTTGCATCCAATTGTGCCTGAACTTTTAAAATATGTAAATGCTGCCATGTTCCAAACCCATCGTCAGTGTGTGTGTTTAGAGCTGTGCACCCTAGAAACAACATATTGTCCCATGAGCAGGTGCCTGAGACACAGACCCCTTTGCATTCACAGAGAGGTCATTGGTTATAGAGACTTGAATTAATAAGTGACATTATGCCAGTTTCTGTTCTCTCACAGGTGATAAACAATGCTTTTTGTGCACTACATACTCTTCAGTGTAGAGCTCTTGTTTTATGGGAAAAGGCTCAAATGCCAAATTGTGTTTGATGGATTAATATGCCCTTTTGCCGATGCATACTATTACTGATGTGACTCGGTTTTGTCGCAGCTTTGCTTTGTTTAATGAAACACACTTGTAAACCTCTTTTGCACTTTGAAAAAGAATCCAGCGGGATGCTCGAGCACCTGTAAACAATTTTCTCAACCTATTTGATGTTCAAATAAAGAATTAAACTAAA NM_130398AAATTGAAAGGTCAGCCTTTCGCGCGCTGTGTAGGCAAGTTACCCGTGTTCTGCGTTGCCGGCCGTGGGT121GCTCTGGCCACAGTGAGTTAGGGGCGTCGGAGCGGGTTTCTCCAACCGCAATCGGCTCCGCTCAAGGGGAGGAGGAGAGTCCCTTCTCGGAAGGCCTAAGGAAACGTGTCGTCTGGAATGGGCTTGGGGGCCACGCCTGCACATCTCCGCGAGACAGAGGGATAAAGTGAAGATGGTGCTGTTATTGTTACCTCGAGTGCCACATGCGACCTCTGAGATATGTACACAGTCATTCTTACTATCGCACTCAGCCATTCTTACTACGCTAAAGAAGAAATAATTATTCGAGGATATTTGCCTGGCCCAGAAGAAACTTATGTAAATTTCATGAACTATTATATCCGTTTTCCTCGGAGTGAGAGAAAACTCTTTTTAGATATCATCTGAGAGAACTAGTGAATCCCAGTCACTGAGTGGAGTTGAGAGTCTAAGAACCTCTGAAATTTGAGAACTGCTGGACCAGAGCCTTTAGAGCTCTGATAAGGTGTCAACAGGGTAGTTAATTTGGCACCATGGGGATACAGGGATTGCTACAATTTATCAAAGAAGCTTCAGAACCCATCCATGTGAGGAAGTATAAAGGGCAGGTAGTAGCTGTGGATACATATTGCTGGCTTCACAAAGGAGCTATTGCTTGTGCTGAAAAACTAGCCAAAGGTGAACCTACTGATAGGTATGTAGGATTTTGTATGAAATTTGTAAATATGTTACTATCTCATGGGATCAAGCCTATTCTCGTATTTGATGGATGTACTTTACCTTCTAAAAAGGAAGTAGAGAGATCTAGAAGAGAAAGACGACAAGCCAATCTTCTTAAGGGAAAGCAACTTCTTCGTGAGGGGAAAGTCTCGGAAGCTCGAGAGTGTTTCACCCGGTCTATCAATATCACACATGCCATGGCCCACAAAGTAATTAAAGCTGCCCGGTCTCAGGGGGTAGATTGCCTCGTGGCTCCCTATGAAGCTGATGCGCAGTTGGCCTATCTTAACAAAGCGGGAATTGTGCAAGCCATAATTACAGAGGACTCGGATCTCCTAGCTTTTGGCTGTAAAAAGGTAATTTTAAAGATGGACCAGTTTGGAAATGGACTTGAAATTGATCAAGCTCGGCTAGGAATGTGCAGACAGCTTGGGGATGTATTCACGGAAGAGAAGTTTCGTTACATGTGTATTCTTTCAGGTTGTGACTACCTGTCATCACTGCGTGGGATTGGATTAGCAAAGGCATGCAAAGTCCTAAGACTAGCCAATAATCCAGATATAGTAAAGGTTATCAAGAAAATTGGACATTATCTCAAGATGAATATCACGGTACCAGAGGATTACATCAACGGGTTTATTCGGGCCAACAATACCTTCCTCTATCAGCTAGTTTTTGATCCCATCAAAAGGAAACTTATTCCTCTGAACGCCTATGAAGATGATGTTGATCCTGAAACACTAAGCTACGCTGGGCAATATGTTGATGATTCCATAGCTCTTCAAATAGCACTTGGAAATAAAGATATAAATACTTTTGAACAGATCGATGACTACAATCCAGACACTGCTATGCCTGCCCATTCAAGAAGTCATAGTTGGGATGACAAAACATGTCAAAAGTCAGCTAATGTTAGCAGCATTTGGCATAGGAATTACTCTCCCAGACCAGAGTCGGGTACTGTTTCAGATGCCCCACAATTGAAGGAAAATCCAAGTACTGTGGGAGTGGAACGAGTGATTAGTACTAAAGGGTTAAATCTCCCAAGGAAATCATCCATTGTGAAAAGACCAAGAAGTGCAGAGCTGTCAGAAGATGACCTGTTGAGTCAGTATTCTCTTTCATTTACGAAGAAGACCAAGAAAAATAGCTCTGAAGGCAATAAATCATTGAGCTTTTCTGAAGTGTTTGTGCCTGACCTGGTAAATGGACCTACTAACAAAAAGAGTGTAAGCACTCCACCTAGGACGAGAAATAAATTTGCAACATTTTTACAAAGGAAAAATGAAGAAAGTGGTGCAGTTGTGGTTCCAGGGACCAGAAGCAGGTTTTTTTGCAGTTCAGATTCTACTGACTGTGTATCAAACAAAGTGAGCATCCAGCCTCTGGATGAAACTGCTGTCACAGATAAAGAGAACAATCTGCATGAATCAGAGTATGGAGACCAAGAAGGCAAGAGACTGGTTGACACAGATGTAGCACGTAATTCAAGTGATGACATTCCGAATAATCATATTCCAGGTGATCATATTCCAGACAAGGCAACAGTGTTTACAGATGAAGAGTCCTACTCTTTTGAGAGCAGCAAATTTACAAGGACCATTTCACCACCCACTTTGGGAACACTAAGAAGTTGTTTTAGTTGGTCTGGAGGTCTTGGAGATTTTTCAAGAACGCCGAGCCCCTCTCCAAGCACAGCATTGCAGCAGTTCCGAAGAAAGAGCGATTCCCCCACCTCTTTGCCTGAGAATAATATGTCTGATGTGTCGCAGTTAAAGAGCGAGGAGTCCAGTGACGATGAGTCTCATCCCTTACGAGAAGAGGCATGTTCTTCACAGTCCCAGGAAAGTGGAGAATTCTCACTGCAGAGTTCAAATGCATCAAAGCTTTCTCAGTGCTCTAGTAAGGACTCTGATTCAGAGGAATCTGATTGCAATATTAAGTTACTTGACAGTCAAAGTGACCAGACCTCCAAGCTACGTTTATCTCATTTCTCAAAAAAAGACACACCTCTAAGGAACAAGGTTCCTGGGCTATATAAGTCCAGTTCTGCAGACTCTCTTTCTACAACCAAGATCAAACCTCTAGGACCTGCCAGAGCCAGTGGGCTGAGCAAGAAGCCGGCAAGCATCCAGAAGAGAAAGCATCATAATGCCGAGAACAAGCCGGGGTTACAGATCAAACTCAATGAGCTCTGGAAAAACTTTGGATTTAAAAAAGATTCTGAAAAGCTTCCTCCTTGTAAGAAACCCCTGTCCCCAGTCAGAGATAACATCCAACTAACTCCAGAAGCGGAAGAGGATATATTTAACAAACCTGAATGTGGCCGTGTTCAAAGAGCAATATTCCAGTAAATGCAGACTGCTGCAAAGCTTTTGCCTGCAAGAGAATCTGATCAATTTGAAGTCCCTGTTTGGGAATGAGGCACTTATCAGCATGAAGAATTTTTTCTCATTCTGTGCCATTTTAAAAATAGAATACATTTTGTATATTAACTTTATAATTGGGTTGTGGTTTTTTTGCTCAGCTTTTTATATTTTTATAAGAAGCTAAATAGAAGAATAATTGTATCTCTGACAGGTTTTTGGAGGTTTTAGTGTTAATTGGGAAAATCCTCTGGAGTTTATAAAAGTCTACTCTAAATATTTCTGTAATGTTGTCAAGTAGAAAGATAGTAAATGGAGAAACTACAAAAAAAAAAAAAAAAAA AB209631CCATGACCTGCCTTGAGAAGGGGCAGGGGAAGCCAGATGGACTGGAAGTGGAGTGGCAGTGACCAAGGAG122GAGGAGGTGTGATAGGCTTCCCACGCAGGGTAGATCCAGAGACACCAGTGCCACCCATAGGCCCCTAGGACTGCAGTGGTCACCCGATTCCTTTGTCCCAGCTGAGACTCAGTTCTGAGTGTTCTATTTTGGGGAACAGAGGCGTCCTTGGTAGCATTTGGAAGAGGATAGCCAGCTGGGGTGTGTGTACATCACAGCCTGACAGTAACAGCATCCGAACCAGAGGTGACTGGCTAAGGGCAGACCCAGGGCAACAGGTTAACCGTTCTAGGGCCGGGCACAGGGAGGAGAACATTCCAACACTCTGTGTGCCCAGTGCCGACGCACGTTCTCTCTTTTATCCTCAAAACAGTCCTATGAGGATATAAGCCAGAGAGAGACAGAGACAAGGAATTACAAGTTGGTGAGAGTCAGGATTTGAACTTGGCTCTGGCAGATGGAAAATTAGGGTCTGTATTCTTTACAAAACCGTGTGTGCCTCAGATGGAGTTGGTGCATAACAAGCAGAGGTATCCAGGGTCGCGGTCCTGCTTGCCACGGAAGGGGCCGCCTTGTCAGTTGTGACCACCCAGCCCTGGAAATGTCAGTAATGCTGTAAGGAGTGGGGATCGGATCAGATGCCATCCAGATGCTGAAGTTTGACCTTGTGTCATTTTTCACTTTCTTTTTTGGCTCTTCTGCAATCAATTCATTTATTTAGCAAAAAAGAAATTATGTGTGCCGAGAGCATGCAGAAGATATGTCTCCGTTCTCTGCTTCCCTCCAAAAAAGAATCCCAAAACTGCTTTCTGTGAACGTGTGCCAGGGTCCCAGCAGGACTCAGGGAGAGCAGGAAGCCCAGCCCAGACCCCTTGCACAACCTACCGTGGGGAGGCCTTAGGCTCTGGCTACTACAGAGCTGGTTCCAGTCTGCACTGCCACAGCCTGGCCAGGGACTTGGACACATCTGCTGGCCACTTCCTGTCTCAGTTTCCTTATCTGCAAAATAAGGGAAAAGCCCCCACAAAGGTGCACGTGTAGCAGGAGCTCTTTTCCCTCCCTATTTTAGGAAGGCAGTTGGTGGGAAGTCCAGCTTGGGTCCCTGAGAGCTGTGAGAAGGAGATGCGGCTGCTGCTGGCCCTGTTGGGGGTCCTGCTGAGTGTGCCTGGGCCTCCAGTCTTGTCCCTGGAGGCCTCTGAGGAAGTGGAGCTTGGTATGGCTTCTGAGGTGGGAGAGGGTGGCAGGGGTGGGAAGAGTGGGCACCAGGAGGGGGCTGCTGGGCTGAGCAAAGCTGGAAAGGATCCTTGCCCAGGCCCTGAGAAGGTGGCGGCAGGGCAGGGCTCAACCACTGAGACTCAGTCAGTGCCTGGCTTCCAGCAAGCATTCATCTATCACTGTGTCTGCGAGAGAGGACTGGCCTTGCAGGGCGCAGGGCCCTAAGCTGGGCTGCAGAGCTGGTGGTGAGCTCCTTGCCTGGGTGTGTGTGCGTGTGTGTGTGTGTTCTGTGCACTGGGTGTGTGACCTAGGAGGTCCAGGCAGCATGTGTGGTATAAGCATTATGAGGGTGATATGCCCCGGTGCAGCATGACCCTGTATGTGGCACCAACAGCATGTGCCTTGTGTGTGTGTGTGTCCGTATGTGTGTGTGTGTATGCGTGTGTGTGTGTGTGTGTGTGTGTCTTGGCCACTGTCATGTGCACTAAATGCTGTGTGTGTGACATGCCCCAAGAGTGTGGCATTTGCCCTGGGTGTGGCATCCGCAGCATGTGGCTGTGTGGGTGTCAAGGAGTGGTGGCTCCTTCAGCATGCGTTGCGAAGTGCTTGTGCCCTGCATGTGCGGTGTGTTCTCTGTACACAGGAGGCTGCCTCAGATGGGGCTGCGGGGTCTGCTGACCTCTGCCCTCTGCCCACAGAGCCCTGCCTGGCTCCCAGCCTGGAGCAGCAAGAGCAGGAGCTGACAGTAGCCCTTGGGCAGCCTGTGCGGCTGTGCTGTGGGCGGGCTGAGCGTGGTGGCCACTGGTACAAGGAGGGCAGTCGCCTGGCACCTGCTGGCCGTGTACGGGGCTGGAGGGGCCGCCTAGAGATTGCCAGCTTCCTACCTGAGGATGCTGGCCGCTACCTCTGCCTGGCACGAGGCTCCATGATCGTCCTGCAGAATCTCACCTTGATTACAGGTGACTCCTTGACCTCCAGCAACGATGATGAGGACCCCAAGTCCCATAGGGACCTCTCGAATAGGCACAGTTACCCCCAGCAAGGTCAGTAGGTCTCCAAGGACTTGTGTCCCCGCTGCTGCTCATCTGATCACTGAGAAGAGGAGGCCTGTGTGGGAACACACGGTCATTCTAGGGGCCTTCCCCTGCCCTCCAGCACCCTACTGGACACACCCCCAGCGCATGGAGAAGAAACTGCATGCAGTACCTGCGGGGAACACCGTCAAGTTCCGCTGTCCAGCTGCAGGCAACCCCACGCCCACCATCCGCTGGCTTAAGGATGGACAGGCCTTTCATGGGGAGAACCGCATTGGAGGCATTCGGCTGCGCCATCAGCACTGGAGTCTCGTGATGGAGAGCGTGGTGCCCTCGGACCGCGGCACATACACCTGCCTGGTAGAGAACGCTGTGGGCAGCATCCGTTATAACTACCTGCTAGATGTGCTGGAGCGGTCCCCGCACCGGCCCATCCTGCAGGCCGGGCTCCCGGCCAACACCACAGCCGTGGTGGGCAGCGACGTGGAGCTGCTGTGCAAGGTGTACAGCGATGCCCAGCCCCACATCCAGTGGCTGAAGCACATCGTCATCAACGGCAGCAGCTTCGGAGCCGACGGTTTCCCCTATGTGCAAGTCCTAAAGACTGCAGACATCAATAGCTCAGAGGTGGAGGTCCTGTACCTGCGGAACGTGTCAGCCGAGGACGCAGGCGAGTACACCTGCCTCGCAGGCAATTCCATCGGCCTCTCCTACCAGTCTGCCTGGCTCACGGTGCTGCCAGGTGAGCACCTGAAGGGCCAGGAGATGCTGCGAGATGCCCCTCTGGGCCAGCAGTGGGGGCTGTGGCCTGTTGGGTGGTCAGTCTCTGTTGGCCTGTGGGGTCTGGCCTGGGGGGCAGTGTGTGGATTTGTGGGTTTGAGCTGTATGACAGCCCCTCTGTGCCTCTCCACACGTGGCCGTCCATGTGACCGTCTGCTGAGGTGTGGGTGCCTGGGACTGGGCATAACTACAGCTTCCTCCGTGTGTGTCCCCACATATGTTGGGAGCTGGGAGGGACTGAGTTAGGGTGCACGGGGCGGCCAGTCTCACCACTGACCAGTTTGTCTGTCTGTGTGTGTCCATGTGCGAGGGCAGAGGAGGACCCCACATGGACCGCAGCAGCGCCCGAGGCCAGGTATACGGACATCATCCTGTACGCGTCGGGCTCCCTGGCCTTGGCTGTGCTCCTGCTGCTGGCCAGGCTGTATCGAGGGCAGGCGCTCCACGGCCGGCACCCCCGCCCGCCCGCCACTGTGCAGAAGCTCTCCCGCTTCCCTCTGGCCCGACAGTTCTCCCTGGAGTCAGGCTCTTCCGGCAAGTCAAGCTCATCCCTGGTACGAGGCGTGCGTCTCTCCTCCAGCGGCCCCGCCTTGCTCGCCGGCCTCGTGAGTCTAGATCTACCTCTCGACCCACTATGGGAGTTCCCCCGGGACAGGCTGGTGCTTGGGAAGCCCCTAGGCGAGGGCTGCTTTGGCCAGGTAGTACGTGCAGAGGCCTTTGGCATGGACCCTGCCCGGCCTGACCAAGCCAGCACTGTGGCCGTCAAGATGCTCAAAGACAACGCCTCTGACAAGGACCTGGCCGACCTGGTCTCGGAGATGGAGGTGATGAAGCTGATCGGCCGACACAAGAACATCATCAACCTGCTTGGTGTCTGCACCCAGGAAGGGCCCCTGTACGTGATCGTGGAGTGCGCCGCCAAGGGAAACCTGCGGGAGTTCCTGCGGGCCCGGCGCCCCCCAGGCCCCGACCTCAGCCCCGACGGTCCTCGGAGCAGTGAGGGGCCGCTCTCCTTCCCAGTCCTGGTCTCCTGCGCCTACCAGGTGGCCCGAGGCATGCAGTATCTGGAGTCCCGGAAGTGTATCCACCGGGACCTGGCTGCCCGCAATGTGCTGGTGACTGAGGACAATGTGATGAAGATTGCTGACTTTGGGCTGGCCCGCGGCGTCCACCACATTGACTACTATAAGAAAACCAGCAACGGCCGCCTGCCTGTGAAGTGGATGGCGCCCGAGGCCTTGTTTGACCGGGTGTACACACACCAGAGTGACGTGTGGTCTTTTGGGATCCTGCTATGGGAGATCTTCACCCTCGGGGGCTCCCCGTATCCTGGCATCCCGGTGGAGGAGCTGTTCTCGCTGCTGCGGGAGGGACATCGGATGGACCGACCCCCACACTGCCCCCCAGAGCTGTACGGGCTGATGCGTGAGTGCTGGCACGCAGCGCCCTCCCAGAGGCCTACCTTCAAGCAGCTGGTGGAGGCGCTGGACAAGGTCCTGCTGGCCGTCTCTGAGGAGTACCTCGACCTCCGCCTGACCTTCGGACCCTATTCCCCCTCTGGTGGGGACGCCAGCAGCACCTGCTCCTCCAGCGATTCTGTCTTCAGCCACGACCCCCTGCCATTGGGATCCAGCTCCTTCCCCTTCGGGTCTGGGGTGCAGACATGAGCAAGGCTCAAGGCTGTGCAGGCACATAGGCTGGTGGCCTTGGGCCTTGGGGCTCAGCCACAGCCTGACACAGTGCTCGACCTTGATAGCATGGGGCCCCTGGCCCAGAGTTGCTGTGCCGTGTCCAAGGGCCGTGCCCTTGCCCTTGGAGCTGCCGTGCCTGTGTCCTGATGGCCCAAATGTCAGGGTTCTGCTCGGCTTCTTGGACCTTGGCGCTTAGTCCCCATCCCGGGTTTGGCTGAGCCTGGCTGGAGAGCTGCTATGCTAAACCTCCTGCCTCCCAATACCAGCAGGAGGTTCTGGGCCTCTGAACCCCCTTTCCCCACACCTCCCCCTGCTGCTGCTGCCCCAGCGTCTTGACGGGAGCATTGGCCCCTGAGCCCAGAGAAGCTGGAAGCCTGCCGAAAACAGGAGCAAATGGCGTTTTATAAATTATTTTTTTGAAAT NM_004496TAAGATCCACATCAGCTCAACTGCACTTGCCTCGCAGAGGCAGCCCGCTCACTTCCCGCGGAGGCGCTCC123CCGGCGCCGCGCTCCGCGGCAGCCGCCTGCCCCCGGCGCTGCCCCCGCCCGCCGCGCCGCCGCCGCCGCCGCGCACGCCGCGCCCCGCAGCTCTGGGCTTCCTCTTCGCCCGGGTGGCGTTGGGCCCGCGCGGGCGCTCGGGTGACTGCAGCTGCTCAGCTCCCCTCCCCCGCCCCGCGCCGCGCGGCCGCCCGTCGCTTCGCACAGGGCTGGATGGTTGTATTGGGCAGGGTGGCTCCAGGATGTTAGGAACTGTGAAGATGGAAGGGCATGAAACCAGCGACTGGAACAGCTACTACGCAGACACGCAGGAGGCCTACTCCTCCGTCCCGGTCAGCAACATGAACTCAGGCCTGGGCTCCATGAACTCCATGAACACCTACATGACCATGAACACCATGACTACGAGCGGCAACATGACCCCGGCGTCCTTCAACATGTCCTATGCCAACCCGGGCCTAGGGGCCGGCCTGAGTCCCGGCGCAGTAGCCGGCATGCCGGGGGGCTCGGCGGGCGCCATGAACAGCATGACTGCGGCCGGCGTGACGGCCATGGGTACGGCGCTGAGCCCGAGCGGCATGGGCGCCATGGGTGCGCAGCAGGCGGCCTCCATGAATGGCCTGGGCCCCTACGCGGCCGCCATGAACCCGTGCATGAGCCCCATGGCGTACGCGCCGTCCAACCTGGGCCGCAGCCGCGCGGGCGGCGGCGGCGACGCCAAGACGTTCAAGCGCAGCTACCCGCACGCCAAGCCGCCCTACTCGTACATCTCGCTCATCACCATGGCCATCCAGCAGGCGCCCAGCAAGATGCTCACGCTGAGCGAGATCTACCAGTGGATCATGGACCTCTTCCCCTATTACCGGCAGAACCAGCAGCGCTGGCAGAACTCCATCCGCCACTCGCTGTCCTTCAATGACTGCTTCGTCAAGGTGGCACGCTCCCCGGACAAGCCGGGCAAGGGCTCCTACTGGACGCTGCACCCGGACTCCGGCAACATGTTCGAGAACGGCTGCTACTTGCGCCGCCAGAAGCGCTTCAAGTGCGAGAAGCAGCCGGGGGCCGGCGGCGGGGGCGGGAGCGGAAGCGGGGGCAGCGGCGCCAAGGGCGGCCCTGAGAGCCGCAAGGACCCCTCTGGCGCCTCTAACCCCAGCGCCGACTCGCCCCTCCATCGGGGTGTGCACGGGAAGACCGGCCAGCTAGAGGGCGCGCCGGCCCCCGGGCCCGCCGCCAGCCCCCAGACTCTGGACCACAGTGGGGCGACGGCGACAGGGGGCGCCTCGGAGTTGAAGACTCCAGCCTCCTCAACTGCGCCCCCCATAAGCTCCGGGCCCGGGGCGCTGGCCTCTGTGCCCGCCTCTCACCCGGCACACGGCTTGGCACCCCACGAGTCCCAGCTGCACCTGAAAGGGGACCCCCACTACTCCTTCAACCACCCGTTCTCCATCAACAACCTCATGTCCTCCTCGGAGCAGCAGCATAAGCTGGACTTCAAGGCATACGAACAGGCACTGCAATACTCGCCTTACGGCTCTACGTTGCCCGCCAGCCTGCCTCTAGGCAGCGCCTCGGTGACCACCAGGAGCCCCATCGAGCCCTCAGCCCTGGAGCCGGCGTACTACCAAGGTGTGTATTCCAGACCCGTCCTAAACACTTCCTAGCTCCCGGGACTGGGGGGTTTGTCTGGCATAGCCATGCTGGTAGCAAGAGAGAAAAAATCAACAGCAAACAAAACCACACAAACCAAACCGTCAACAGCATAATAAAATCCCAACAACTATTTTTATTTCATTTTTCATGCACAACCTTTCCCCCAGTGCAAAAGACTGTTACTTTATTATTGTATTCAAAATTCATTGTGTATATTACTACAAAGACAACCCCAAACCAATTTTTTTCCTGCGAAGTTTAATGATCCACAAGTGTATATATGAAATTCTCCTCCTTCCTTGCCCCCCTCTCTTTCTTCCCTCTTTCCCCTCCAGACATTCTAGTTTGTGGAGGGTTATTTAAAAAAACAAAAAAGGAAGATGGTCAAGTTTGTAAAATATTTGTTTGTGCTTTTTCCCCCTCCTTACCTGACCCCCTACGAGTTTACAGGTCTGTGGCAATACTCTTAACCATAAGAATTGAAATGGTGAAGAAACAAGTATACACTAGAGGCTCTTAAAAGTATTGAAAGACAATACTGCTGTTATATAGCAAGACATAAACAGATTATAAACATCAGAGCCATTTGCTTCTCAGTTTACATTTCTGATACATGCAGATAGCAGATGTCTTTAAATGAAATACATGTATATTGTGTATGGACTTAATTATGCACATGCTCAGATGTGTAGACATCCTCCGTATATTTACATAACATATAGAGGTAATAGATAGGTGATATACATGATACATTCTCAAGAGTTGCTTGACCGAAAGTTACAAGGACCCCAACCCCTTTGTCCTCTCTACCCACAGATGGCCCTGGGAATCAATTCCTCAGGAATTGCCCTCAAGAACTCTGCTTCTTGCTTTGCAGAGTGCCATGGTCATGTCATTCTGAGGTCACATAACACATAAAATTAGTTTCTATGAGTGTATACCATTTAAAGAATTTTTTTTTCAGTAAAAGGGAATATTACAATGTTGGAGGAGAGATAAGTTATAGGGAGCTGGATTTCAAAACGTGGTCCAAGATTCAAAAATCCTATTGATAGTGGCCATTTTAATCATTGCCATCGTGTGCTTGTTTCATCCAGTGTTATGCACTTTCCACAGTTGGACATGGTGTTAGTATAGCCAGACGGGTTTCATTATTATTTCTCTTTGCTTTCTCAATGTTAATTTATTGCATGGTTTATTCTTTTTCTTTACAGCTGAAATTGCTTTAAATGATGGTTAAAATTACAAATTAAATTGTTAATTTTTATCAATGTGATTGTAATTAAAAATATTTTGATTTAAATAACAAAAATAATACCAGATTTTAAGCCGTGGAAAATGTTCTTGATCATTTGCAGTTAAGGACTTTAAATAAATCAAATGTTAACAAAAAAAAAAAAAAAA NM_001453ATGCAGGCGCGCTACTCCGTGTCCAGCCCCAACTCCCTGGGAGTGGTGCCCTACCTCGGCGGCGAGCAGA124GCTACTACCGCGCGGCGGCCGCGGCGGCCGGGGGCGGCTACACCGCCATGCCGGCCCCCATGAGCGTGTACTCGCACCCTGCGCACGCCGAGCAGTACCCGGGCGGCATGGCCCGCGCCTACGGGCCCTACACGCCGCAGCCGCAGCCCAAGGACATGGTGAAGCCGCCCTATAGCTACATCGCGCTCATCACCATGGCCATCCAGAACGCCCCGGACAAGAAGATCACCCTGAACGGCATCTACCAGTTCATCATGGACCGCTTCCCCTTCTACCGGGACAACAAGCAGGGCTGGCAGAACAGCATCCGCCACAACCTCTCGCTCAACGAGTGCTTCGTCAAGGTGCCGCGCGACGACAAGAAGCCGGGCAAGGGCAGCTACTGGACGCTGGACCCGGACTCCTACAACATGTTCGAGAACGGCAGCTTCCTGCGGCGGCGGCGGCGCTTCAAGAAGAAGGACGCGGTGAAGGACAAGGAGGAGAAGGACAGGCTGCACCTCAAGGAGCCGCCCCCGCCCGGCCGCCAGCCCCCGCCCGCGCCGCCGGAGCAGGCCGACGGCAACGCGCCCGGTCCGCAGCCGCCGCCCGTGCGCATCCAGGACATCAAGACCGAGAACGGTACGTGCCCCTCGCCGCCCCAGCCCCTGTCCCCGGCCGCCGCCCTGGGCAGCGGCAGCGCCGCCGCGGTGCCCAAGATCGAGAGCCCCGACAGCAGCAGCAGCAGCCTGTCCAGCGGGAGCAGCCCCCCGGGCAGCCTGCCGTCGGCGCGGCCGCTCAGCCTGGACGGTGCGGATTCCGCGCCGCCGCCGCCCGCGCCCTCCGCCCCGCCGCCGCACCATAGCCAGGGCTTCAGCGTGGACAACATCATGACGTCGCTGCGGGGGTCGCCGCAGAGCGCGGCCGCGGAGCTCAGCTCCGGCCTTCTGGCCTCGGCGGCCGCGTCCTCGCGCGCGGGGATCGCACCCCCGCTGGCGCTCGGCGCCTACTCGCCCGGCCAGAGCTCCCTCTACAGCTCCCCCTGCAGCCAGACCTCCAGCGCGGGCAGCTCGGGCGGCGGCGGCGGCGGCGCGGGGGCCGCGGGGGGCGCGGGCGGCGCCGGGACCTACCACTGCAACCTGCAAGCCATGAGCCTGTACGCGGCCGGCGAGCGCGGGGGCCACTTGCAGGGCGCGCCCGGGGGCGCGGGCGGCTCGGCCGTGGACGACCCCCTGCCCGACTACTCTCTGCCTCCGGTCACCAGCAGCAGCTCGTCGTCCCTGAGTCACGGCGGCGGCGGCGGCGGCGGCGGGGGAGGCCAGGAGGCCGGCCACCACCCTGCGGCCCACCAAGGCCGCCTCACCTCGTGGTACCTGAACCAGGCGGGCGGAGACCTGGGCCACTTGGCGAGCGCGGCGGCGGCGGCGGCGGCCGCAGGCTACCCGGGCCAGCAGCAGAACTTCCACTCGGTGCGGGAGATGTTCGAGTCACAGAGGATCGGCTTGAACAACTCTCCAGTGAACGGGAATAGTAGCTGTCAAATGGCCTTCCCTTCCAGCCAGTCTCTGTACCGCACGTCCGGAGCTTTCGTCTACGACTGTAGCAAGTTTTGACACACCCTCAAAGCCGAACTAAATCGAACCCCAAAGCAGGAAAAGCTAAAGGAACCCATCAAGGCAAAATCGAAACTAAAAAAAAAAAATCCAATTAAAAAAAACCCCTGAGAATATTCACCACACCAGCGAACAGAATATCCCTCCAAAAATTCAGCTCACCAGCACCAGCACGAAGAAAACTCTATTTTCTTAACCGATTAATTCAGAGCCACCTCCACTTTGCCTTGTCTAAATAAACAAACCCGTAAACTGTTTTATACAGAGACAGCAAAATCTTGGTTTATTAAAGGACAGTGTTACTCCAGATAACACGTAAGTTTCTTCTTGCTTTTCAGAGACCTGCTTTCCCCTCCTCCCGTCTCCCCTCTCTTGCCTTCTTCCTTGCCTCTCACCTGTAAGATATTATTTTATCCTATGTTGAAGGGAGGGGGAAAGTCCCCGTTTATGAAAGTCGCTTTCTTTTTATTCATGGACTTGTTTTAAAATGTAAATTGCAACATAGTAATTTATTTTTAATTTGTAGTTGGATGTCGTGGACCAAACGCCAGAAAGTGTTCCCAAAACCTGACGTTAAATTGCCTGAAACTTTAAATTGTGCTTTTTTTCTCATTATAAAAAGGGAAACTGTATTAATCTTATTCTATCCTCTTTTCTTTCTTTTTGTTGAACATATTCATTGTTTGTTTATTAATAAATTACCATTCAGTTTGAATGAGACCTATATGTCTGGATACTTTAATAGAGCTTTAATTATTACGAAAAAAGATTTCAGAGATAAAACACTAGAAGTTACCTATTCTCCACCTAAATCTCTGAAAAATGGAGAAACCCTCTGACTAGTCCATGTCAAATTTTACTAAAAGTCTTTTTGTTTAGATTTATTTTCCTGCAGCATCTTCTGCAAAATGTACTATATAGTCAGCTTGCTTTGAGGCTAGTAAAAAGATATTTTTCTAAACAGATTGGAGTTGGCATATAAACAAATACGTTTTCTCACTAATGACAGTCCATGATTCGGAAATTTTAAGCCCATGAATCAGCCGCGGTCTTACCACGGTGATGCCTGTGTGCCGAGAGATGGGACTGTGCGGCCAGATATGCACAGATAAATATTTGGCTTGTGTATTCCATATAAAATTGCAGTGCATATTATACATCCCTGTGAGCCAGATGCTGAATAGATATTTTCCTATTATTTCAGTCCTTTATAAAAGGAAAAATAAACCAGTTTTTAAATGTATGTATATAATTCTCCCCCATTTACAATCCTTCATGTATTACATAGAAGGATTGCTTTTTTAAAAATATACTGCGGGTTGGAAAGGGATATTTAATCTTTGAGAAACTATTTTAGAAAATATGTTTGTAGAACAATTATTTTTGAAAAAGATTTAAAGCAATAACAAGAAGGAAGGCGAGAGGAGCAGAACATTTTGGTCTAGGGTGGTTTCTTTTTAAACCATTTTTTCTTGTTAATTTACAGTTAAACCTAGGGGACAATCCGGATTGGCCCTCCCCCTTTTGTAAATAACCCAGGAAATGTAATAAATTCATTATCTTAGGGTGATCTGCCCTGCCAATCAGACTTTGGGGAGATGGCGATTTGATTACAGACGTTCGGGGGGGTGGGGGGCTTGCAGTTTGTTTTGGAGATAATACAGTTTCCTGCTATCTGCCGCTCCTATCTAGAGGCAACACTTAAGCAGTAATTGCTGTTGCTTGTTGTCAAAATTTGATCATTGTTAAAGGATTGCTGCAAATAAATACACTTTAATTTCAGTCAAAAA AJ249248GTGGCCTCGAGGTGGTGGCAGGGCCGCCCCCTGCAGTCCGGAGACGAACGCACGGACCGGGCCTCCGGAG125GCAGGTTCGGCTGGAAGGAACCGCTCTCGCTTCGTCCTACACTTGCGCAAATGTCTCCGAGCTTACTCACATAGCATATTGGTATATCAAAATGAAATGCAAGGAACCAAAAATAACATAATTGAAGGCAGTAAAAGTGAAATTAAATAGGAAGATCATCAGTCAAGGAAGACCCACTGGAGAGGACAGAAAATGAAGCAGTGTTTTATCATGTGTATTTCAGCAGGTCTTCTTGAAATTTAACTAAAAATATGACTGCTCTCTCTTCAGAGAACTGCTCTTTTCAGTACCAGTTACGTCAAACAAACCAGCCCCTAGACGTTAACTATCTGCTATTCTTGATCATACTTGGGAAAATATTATTAAATATCCTTACACTAGGAATGAGAAGAAAAAACACCTGTCAAAATTTTATGGAATATTTTTGCATTTCACTAGCATTCGTTGATCTTTTACTTTTGGTAAACATTTCCATTATATTGTATTTCAGGGATTTTGTACTTTTAAGCATTAGGTTCACTAAATACCACATCTGCCTATTTACTCAAATTATTTCCTTTACTTATGGCTTTTTGCATTATCCAGTTTTCCTGACAGCTTGTATAGATTATTGCCTGAATTTCTCTAAAACAACCAAGCTTTCATTTAAGTGTCAAAAATTATTTTATTTCTTTACAGTAATTTTAATTTGGATTTCAGTCCTTGCTTATGTTTTGGGAGACCCAGCCATCTACCAAAGCCTGAAGGCACAGAATGCTTATTCTCGTCACTGTCCTTTCTATGTCAGCATTCAGAGTTACTGGCTGTCATTTTTCATGGTGATGATTTTATTTGTAGCTTTCATAACCTGTTGGGAAGAAGTTACTACTTTGGTACAGGCTATCAGGATAACTTCCTATATGAATGAAACTATCTTATATTTTCCTTTTTCATCCCACTCCAGTTATACTGTGAGATCTAAAAAAATATTCTTATCCAAGCTCATTGTCTGTTTTCTCAGTACCTGGTTACCATTTGTACTACTTCAGGTAATCATTGTTTTACTTAAAGTTCAGATTCCAGCATATATTGAGATGAATATTCCCTGGTTATACTTTGTCAATAGTTTTCTCATTGCTACAGTGTATTGGTTTAATTGTCACAAGCTTAATTTAAAAGACATTGGATTACCTTTGGATCCATTTGTCAACTGGAAGTGCTGCTTCATTCCACTTACAATTCCTAATCTTGAGCAAATTGAAAAGCCTATATCAATAATGATTTGTTAATATTATTAATTAAAAGTTACAGCTGTCATAAGATCATAATTTTATGAACAGAAAGAACTCAGGACATATTAAAAAATAAACTGAACTAAAACAACTTTTGCCCCCTGACTGATAGCATTTCAGAATGTGTCTTTTGAAGGGCTATACCAGTTATTAAATAGTGTTTTATTTTAAAAACAAAATAATTCCAAGAAGTTTTTATAGTTATTCAGGGACACTATATTACAAATATTACTTTGTTATTAACACAAAAAGTGATAAGAGTTAACATTTGGCTATACTGATGTTTGTGTTACTCAAAAAAACTACTGGATGCAAACTGTTATGTAAATCTGAGATTTCACTGACAACTTTAAGATATCAACCTAAACATTTTTATTAAATGTTCAAATGTAAGCAAGAAAAAAAAAANM_005310ACCCGCCCCCATCTGCCCAAGATAATTTTAGTTTCCTTGGGCCTGGAATCTGGACACACAGGGCTCCCCC126CCGCCTCTGACTTCTCTGTCCGAAGTCGGGACACCCTCCTACCACCTGTAGAGAAGCGGGAGTGGATCTGAAATAAAATCCAGGAATCTGGGGGTTCCTAGACGGAGCCAGACTTCGGAACGGGTGTCCTGCTACTCCTGCTGGGGCTCCTCCAGGACAAGGGCACACAACTGGTTCCGTTAAGCCCCTCTCTCGCTCAGACGCCATGGAGCTGGATCTGTCTCCACCTCATCTTAGCAGCTCTCCGGAAGACCTTTGCCCAGCCCCTGGGACCCCTCCTGGGACTCCCCGGCCCCCTGATACCCCTCTGCCTGAGGAGGTAAAGAGGTCCCAGCCTCTCCTCATCCCAACCACCGGCAGGAAACTTCGAGAGGAGGAGAGGCGTGCCACCTCCCTCCCCTCTATCCCCAACCCCTTCCCTGAGCTCTGCAGTCCTCCCTCACAGAGCCCAATTCTCGGGGGCCCCTCCAGTGCAAGGGGGCTGCTCCCCCGCGATGCCAGCCGCCCCCATGTAGTAAAGGTGTACAGTGAGGATGGGGCCTGCAGGTCTGTGGAGGTGGCAGCAGGTGCCACAGCTCGCCACGTGTGTGAAATGCTGGTGCAGCGAGCTCACGCCTTGAGCGACGAGACCTGGGGGCTGGTGGAGTGCCACCCCCACCTAGCACTGGAGCGGGGTTTGGAGGACCACGAGTCCGTGGTGGAAGTGCAGGCTGCCTGGCCCGTGGGCGGAGATAGCCGCTTCGTCTTCCGGAAAAACTTCGCCAAGTACGAACTGTTCAAGAGCTCCCCACACTCCCTGTTCCCAGAAAAAATGGTCTCCAGCTGTCTCGATGCACACACTGGTATATCCCATGAAGACCTCATCCAGAACTTCCTGAATGCTGGCAGCTTTCCTGAGATCCAGGGCTTTCTGCAGCTGCGGGGTTCAGGACGGAAGCTTTGGAAACGCTTTTTCTGCTTCTTGCGCCGATCTGGCCTCTATTACTCCACCAAGGGCACCTCTAAGGATCCGAGGCACCTGCAGTACGTGGCAGATGTGAACGAGTCCAACGTGTACGTGGTGACGCAGGGCCGCAAGCTCTACGGGATGCCCACTGACTTCGGTTTCTGTGTCAAGCCCAACAAGCTTCGAAATGGCCACAAGGGGCTTCGGATCTTCTGCAGTGAAGATGAGCAGAGCCGCACCTGCTGGCTGGCTGCCTTCCGCCTCTTCAAGTACGGGGTGCAGCTGTACAAGAATTACCAGCAGGCACAGTCTCGCCATCTGCATCCATCTTGTTTGGGCTCCCCACCCTTGAGAAGTGCCTCAGATAATACCCTGGTGGCCATGGACTTCTCTGGCCATGCTGGGCGTGTCATTGAGAACCCCCGGGAGGCTCTGAGTGTGGCCCTGGAGGAGGCCCAGGCCTGGAGGAAGAAGACAAACCACCGCCTCAGCCTGCCCATGCCAGCCTCCGGCACGAGCCTCAGTGCAGCCATCCACCGCACCCAACTCTGGTTCCACGGGCGCATTTCCCGTGAGGAGAGCCAGCGGCTTATTGGACAGCAGGGCTTGGTAGACGGCCTGTTCCTGGTCCGGGAGAGTCAGCGGAACCCCCAGGGCTTTGTCCTCTCTTTGTGCCACCTGCAGAAAGTGAAGCATTATCTCATCCTGCCGAGCGAGGAGGAGGGCCGCCTGTACTTCAGCATGGATGATGGCCAGACCCGCTTCACTGACCTGCTGCAGCTCGTGGAGTTCCACCAGCTGAACCGCGGCATCCTGCCGTGCTTGCTGCGCCATTGCTGCACGCGGGTGGCCCTCTGACCAGGCCGTGGACTGGCTCATGCCTCAGCCCGCCTTCAGGCTGCCCGCCGCCCCTCCACCCATCCAGTGGACTCTGGGGCGCGGCCACAGGGGACGGGATGAGGAGCGGGAGGGTTCCGCCACTCCAGTTTTCTCCTCTGCTTCTTTGCCTCCCTCAGATAGAAAACAGCCCCCACTCCAGTCCACTCCTGACCCCTCTCCTCAAGGGAAGGCCTTGGGTGGCCCCCTCTCCTTCTCCTAGCTCTGGAGGTGCTGCTCTAGGGCAGGGAATTATGGGAGAAGTGGGGGCAGCCCAGGCGGTTTCACGCCCCACACTTTGTACAGACCGAGAGGCCAGTTGATCTGCTCTGTTTTATACTAGTGACAATAAAGATTATTTTTTGATACAAAAAAAAAAAAAAAAAAAAAAAA NM_014176AGTCAGAGGTCGCGCAGGCGCTGGTACCCCGTTGGTCCGCGCGTTGCTGCGTTGTGAGGGGTGTCAGCTC127AGTGCATCCCAGGCAGCTCTTAGTGTGGAGCAGTGAACTGTGTGTGGTTCCTTCTACTTGGGGATCATGCAGAGAGCTTCACGTCTGAAGAGAGAGCTGCACATGTTAGCCACAGAGCCACCCCCAGGCATCACATGTTGGCAAGATAAAGACCAAATGGATGACCTGCGAGCTCAAATATTAGGTGGAGCCAACACACCTTATGAGAAAGGTGTTTTTAAGCTAGAAGTTATCATTCCTGAGAGGTACCCATTTGAACCTCCTCAGATCCGATTTCTCACTCCAATTTATCATCCAAACATTGATTCTGCTGGAAGGATTTGTCTGGATGTTCTCAAATTGCCACCAAAAGGTGCTTGGAGACCATCCCTCAACATCGCAACTGTGTTGACCTCTATTCAGCTGCTCATGTCAGAACCCAACCCTGATGACCCGCTCATGGCTGACATATCCTCAGAATTTAAATATAATAAGCCAGCCTTCCTCAAGAATGCCAGACAGTGGACAGAGAAGCATGCAAGACAGAAACAAAAGGCTGATGAGGAAGAGATGCTTGATAATCTACCAGAGGCTGGTGACTCCAGAGTACACAACTCAACACAGAAAAGGAAGGCCAGTCAGCTAGTAGGCATAGAAAAGAAATTTCATCCTGATGTTTAGGGGACTTGTCCTGGTTCATCTTAGTTAATGTGTTCTTTGCCAAGGTGATCTAAGTTGCCTACCTTGAATTTTTTTTTAAATATATTTGATGACATAATTTTTGTGTAGTTTATTTATCTTGTACATATGTATTTTGAAATCTTTTAAACCTGAAAAATAAATAGTCATTTAATGTTGAAAAAAAAAAAAAAAAAAAAAAAAAAAA NM_006845ACGCTTGCGCGCGGGATTTAAACTGCGGCGGTTTACGCGGCGTTAAGACTTCGTAGGGTTAGCGAAATTG128AGGTTTCTTGGTATTGCGCGTTTCTCTTCCTTGCTGACTCTCCGAATGGCCATGGACTCGTCGCTTCAGGCCCGCCTGTTTCCCGGTCTCGCTATCAAGATCCAACGCAGTAATGGTTTAATTCACAGTGCCAATGTAAGGACTGTGAACTTGGAGAAATCCTGTGTTTCAGTGGAATGGGCAGAAGGAGGTGCCACAAAGGGCAAAGAGATTGATTTTGATGATGTGGCTGCAATAAACCCAGAACTCTTACAGCTTCTTCCCTTACATCCGAAGGACAATCTGCCCTTGCAGGAAAATGTAACAATCCAGAAACAAAAACGGAGATCCGTCAACTCCAAAATTCCTGCTCCAAAAGAAAGTCTTCGAAGCCGCTCCACTCGCATGTCCACTGTCTCAGAGCTTCGCATCACGGCTCAGGAGAATGACATGGAGGTGGAGCTGCCTGCAGCTGCAAACTCCCGCAAGCAGTTTTCAGTTCCTCCTGCCCCCACTAGGCCTTCCTGCCCTGCAGTGGCTGAAATACCATTGAGGATGGTCAGCGAGGAGATGGAAGAGCAAGTCCATTCCATCCGAGGCAGCTCTTCTGCAAACCCTGTGAACTCAGTTCGGAGGAAATCATGTCTTGTGAAGGAAGTGGAAAAAATGAAGAACAAGCGAGAAGAGAAGAAGGCCCAGAACTCTGAAATGAGAATGAAGAGAGCTCAGGAGTATGACAGTAGTTTTCCAAACTGGGAATTTGCCCGAATGATTAAAGAATTTCGGGCTACTTTGGAATGTCATCCACTTACTATGACTGATCCTATCGAAGAGCACAGAATATGTGTCTGTGTTAGGAAACGCCCACTGAATAAGCAAGAATTGGCCAAGAAAGAAATTGATGTGATTTCCATTCCTAGCAAGTGTCTCCTCTTGGTACATGAACCCAAGTTGAAAGTGGACTTAACAAAGTATCTGGAGAACCAAGCATTCTGCTTTGACTTTGCATTTGATGAAACAGCTTCGAATGAAGTTGTCTACAGGTTCACAGCAAGGCCACTGGTACAGACAATCTTTGAAGGTGGAAAAGCAACTTGTTTTGCATATGGCCAGACAGGAAGTGGCAAGACACATACTATGGGCGGAGACCTCTCTGGGAAAGCCCAGAATGCATCCAAAGGGATCTATGCCATGGCCTCCCGGGACGTCTTCCTCCTGAAGAATCAACCCTGCTACCGGAAGTTGGGCCTGGAAGTCTATGTGACATTCTTCGAGATCTACAATGGGAAGCTGTTTGACCTGCTCAACAAGAAGGCCAAGCTGCGCGTGCTGGAGGACGGCAAGCAACAGGTGCAAGTGGTGGGGCTGCAGGAGCATCTGGTTAACTCTGCTGATGATGTCATCAAGATGATCGACATGGGCAGCGCCTGCAGAACCTCTGGGCAGACATTTGCCAACTCCAATTCCTCCCGCTCCCACGCGTGCTTCCAAATTATTCTTCGAGCTAAAGGGAGAATGCATGGCAAGTTCTCTTTGGTAGATCTGGCAGGGAATGAGCGAGGCGCGGACACTTCCAGTGCTGACCGGCAGACCCGCATGGAGGGCGCAGAAATCAACAAGAGTCTCTTAGCCCTGAAGGAGTGCATCAGGGCCCTGGGACAGAACAAGGCTCACACCCCGTTCCGTGAGAGCAAGCTGACACAGGTGCTGAGGGACTCCTTCATTGGGGAGAACTCTAGGACTTGCATGATTGCCACGATCTCACCAGGCATAAGCTCCTGTGAATATACTTTAAACACCCTGAGATATGCAGACAGGGTCAAGGAGCTGAGCCCCCACAGTGGGCCCAGTGGAGAGCAGTTGATTCAAATGGAAACAGAAGAGATGGAAGCCTGCTCTAACGGGGCGCTGATTCCAGGCAATTTATCCAAGGAAGAGGAGGAACTGTCTTCCCAGATGTCCAGCTTTAACGAAGCCATGACTCAGATCAGGGAGCTGGAGGAGAAGGCTATGGAAGAGCTCAAGGAGATCATACAGCAAGGACCAGACTGGCTTGAGCTCTCTGAGATGACCGAGCAGCCAGACTATGACCTGGAGACCTTTGTGAACAAAGCGGAATCTGCTCTGGCCCAGCAAGCCAAGCATTTCTCAGCCCTGCGAGATGTCATCAAGGCCTTGCGCCTGGCCATGCAGCTGGAAGAGCAGGCTAGCAGACAAATAAGCAGCAAGAAACGGCCCCAGTGACGACTGCAAATAAAAATCTGTTTGGTTTGACACCCAGCCTCTTCCCTGGCCCTCCCCAGAGAACTTTGGGTACCTGGTGGGTCTAGGCAGGGTCTGAGCTGGGACAGGTTCTGGTAAATGCCAAGTATGGGGGCATCTGGGCCCAGGGCAGCTGGGGAGGGGGTCAGAGTGACATGGGACACTCCTTTTCTGTTCCTCAGTTGTCGCCCTCACGAGAGGAAGGAGCTCTTAGTTACCCTTTTGTGTTGCCCTTCTTTCCATCAAGGGGAATGTTCTCAGCATAGAGCTTTCTCCGCAGCATCCTGCCTGCGTGGACTGGCTGCTAATGGAGAGCTCCCTGGGGTTGTCCTGGCTCTGGGGAGAGAGACGGAGCCTTTAGTACAGCTATCTGCTGGCTCTAAACCTTCTACGCCTTTGGGCCGAGCACTGAATGTCTTGTACTTTAAAAAAATGTTTCTGAGACCTCTTTCTACTTTACTGTCTCCCTAGAGATCCTAGAGGATCCCTACTGTTTTCTGTTTTATGTGTTTATACATTGTATGTAACAATAAAGAGAAAAAATAAATCAGCTGTTTAAGTGTGTGGAAAAAAAAAAAAAAAAAA NM_006101ACTGCGCGCGTCGTGCGTAATGACGTCAGCGCCGGCGGAGAATTTCAAATTCGAACGGCTTTGGCGGGCC129GAGGAAGGACCTGGTGTTTTGATGACCGCTGTCCTGTCTAGCAGATACTTGCACGGTTTACAGAAATTCGGTCCCTGGGTCGTGTCAGGAAACTGGAAAAAAGGTCATAAGCATGAAGCGCAGTTCAGTTTCCAGCGGTGGTGCTGGCCGCCTCTCCATGCAGGAGTTAAGATCCCAGGATGTAAATAAACAAGGCCTCTATACCCCTCAAACCAAAGAGAAACCAACCTTTGGAAAGTTGAGTATAAACAAACCGACATCTGAAAGAAAAGTCTCGCTATTTGGCAAAAGAACTAGTGGACATGGATCCCGGAATAGTCAACTTGGTATATTTTCCAGTTCTGAGAAAATCAAGGACCCGAGACCACTTAATGACAAAGCATTCATTCAGCAGTGTATTCGACAACTCTGTGAGTTTCTTACAGAAAATGGTTATGCACATAATGTGTCCATGAAATCTCTACAAGCTCCCTCTGTTAAAGACTTCCTGAAGATCTTCACATTTCTTTATGGCTTCCTGTGCCCCTCATACGAACTTCCTGACACAAAGTTTGAAGAAGAGGTTCCAAGAATCTTTAAAGACCTTGGGTATCCTTTTGCACTATCCAAAAGCTCCATGTACACAGTGGGGGCTCCTCATACATGGCCTCACATTGTGGCAGCCTTAGTTTGGCTAATAGACTGCATCAAGATACATACTGCCATGAAAGAAAGCTCACCTTTATTTGATGATGGGCAGCCTTGGGGAGAAGAAACTGAAGATGGAATTATGCATAATAAGTTGTTTTTGGACTACACCATAAAATGCTATGAGAGTTTTATGAGTGGTGCCGACAGCTTTGATGAGATGAATGCAGAGCTGCAGTCAAAACTGAAGGATTTATTTAATGTGGATGCTTTTAAGCTGGAATCATTAGAAGCAAAAAACAGAGCATTGAATGAACAGATTGCAAGATTGGAACAAGAAAGAGAAAAAGAACCGAATCGTCTAGAGTCGTTGAGAAAACTGAAGGCTTCCTTACAAGGAGATGTTCAAAAGTATCAGGCATACATGAGCAATTTGGAGTCTCATTCAGCCATTCTTGACCAGAAATTAAATGGTCTCAATGAGGAAATTGCTAGAGTAGAACTAGAATGTGAAACAATAAAACAGGAGAACACTCGACTACAGAATATCATTGACAACCAGAAGTACTCAGTTGCAGACATTGAGCGAATAAATCATGAAAGAAATGAATTGCAGCAGACTATTAATAAATTAACCAAGGACCTGGAAGCTGAACAACAGAAGTTGTGGAATGAGGAGTTAAAATATGCCAGAGGCAAAGAAGCGATTGAAACACAATTAGCAGAGTATCACAAATTGGCTAGAAAATTAAAACTTATTCCTAAAGGTGCTGAGAATTCCAAAGGTTATGACTTTGAAATTAAGTTTAATCCCGAGGCTGGTGCCAACTGCCTTGTCAAATACAGGGCTCAAGTTTATGTACCTCTTAAGGAACTCCTGAATGAAACTGAAGAAGAAATTAATAAAGCCCTAAATAAAAAAATGGGTTTGGAGGATACTTTAGAACAATTGAATGCAATGATAACAGAAAGCAAGAGAAGTGTGAGAACTCTGAAAGAAGAAGTTCAAAAGCTGGATGATCTTTACCAACAAAAAATTAAGGAAGCAGAGGAAGAGGATGAAAAATGTGCCAGTGAGCTTGAGTCCTTGGAGAAACACAAGCACCTGCTAGAAAGTACTGTTAACCAGGGGCTCAGTGAAGCTATGAATGAATTAGATGCTGTTCAGCGGGAATACCAACTAGTTGTGCAAACCACGACTGAAGAAAGACGAAAAGTGGGAAATAACTTGCAACGTCTGTTAGAGATGGTTGCTACACATGTTGGGTCTGTAGAGAAACATCTTGAGGAGCAGATTGCTAAAGTTGATAGAGAATATGAAGAATGCATGTCAGAAGATCTCTCGGAAAATATTAAAGAGATTAGAGATAAGTATGAGAAGAAAGCTACTCTAATTAAGTCTTCTGAAGAATGAAGATAAAATGTTGATCATGTATATATATCCATAGTGAATAAAATTGTCTCAGTAAAGTGTAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA BC042437CTCCCTCCTCTGCACCATGACTACCTGCAGCCGCCAGTTCACCTCCTCCAGCTCCATGAAGGGCTCCTGC130GGCATCGGGGGCGGCATCGGGGGCGGCTCCAGCCGCATCTCCTCCGTCCTGGCCGGAGGGTCCTGCCGCGCCCCCAGCACCTACGGGGGCGGCCTGTCTGTCTCATCCTCCCGCTTCTCCTCTGGGGGAGCCTATGGGTTGGGGGGCGGCTATGGCGGTGGCTTCAGCAGCAGCAGCAGCAGCTTTGGTAGTGGCTTTGGGGGAGGATATGGTGGTGGCCTTGGTGCTGGCTTGGGTGGTGGCTTTGGTGGTGGCTTTGCTGGTGGTGATGGGCTTCTGGTGGGCAGTGAGAAGGTGACCATGCAGAACCTCAACGACCGCCTGGCCTCCTACCTGGACAAGGTGCGTGCTCTGGAGGAGGCCAACGCCGACCTGGAAGTGAAGATCCGTGACTGGTACCAGAGGCAGCGGCCTGCTGAGATCAAAGACTACAGTCCCTACTTCAAGACCATTGAGGACCTGAGGAACAAGATTCTCACAGCCACAGTGGACAATGCCAATGTCCTTCTGCAGATTGACAATGCCCGTCTGGCCGCGGATGACTTCCGCACCAAGTATGAGACAGAGTTGAACCTGCGCATGAGTGTGGAAGCCGACATCAATGGCCTGCGCAGGGTGCTGGACGAACTGACCCTGGCCAGAGCTGACCTGGAGATGCAGATTGAGAGCCTGAAGGAGGAGCTGGCCTACCTGAAGAAGAACCACGAGGAGGAGATGAATGCCCTGAGAGGCCAGGTGGGTGGAGATGTCAATGTGGAGATGGACGCTGCACCTGGCGTGGACCTGAGCCGCATTCTGAACGAGATGCGTGACCAGTATGAGAAGATGGCAGAGAAGAACCGCAAGGATGCCGAGGAATGGTTCTTCACCAAGACAGAGGAGCTGAACCGCGAGGTGGCCACCAACAGCGAGCTGGTGCAGAGCGGCAAGAGCGAGATCTCGGAGCTCCGGCGCACCATGCAGAACCTGGAGATTGAGCTGCAGTCCCAGCTCAGCATGAAAGCATCCCTGGAGAACAGCCTGGAGGAGACCAAAGGTCGCTACTGCATGCAGCTGGCCCAGATCCAGGAGATGATTGGCAGCGTGGAGGAGCAGCTGGCCCAGCTCCGCTGCGAGATGGAGCAGCAGAACCAGGAGTACAAGATCCTGCTGGACGTGAAGACGCGGCTGGAGCAGGAGATCGCCACCTACCGCCGCCTGCTGGAGGGCGAGGACGCCCACCTCTCCTCCTCCCAGTTCTCCTCTGGATCGCAGTCATCCAGAGATGTGACCTCCTCCAGCCGCCAAATCCGCACCAAGGTCATGGATGTGCACGATGGCAAGGTGGTGTCCACCCACGAGCAGGTCCTTCGCACCAAGAACTGAGGCTGCCCAGCCCCGCTCAGGCCTAGGAGGCCCCCCGTGTGGACACAGATCCCACTGGAAGATCCCCTCTCCTGCCCAAGCACTTCACAGCTGGACCCTGCTTCACCCTCACCCCCTCCTGGCAATCAATACAGCTTCATTATCTGAGTTGCATAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA AK095281CTCTTTTGCAGGGGCCGTTCCTCGGGGCATGACGCTGGCTCCTGCACAGATCCTGCTCCTCTGTGGCCTT131CCTGGGCTGCCCTCCCCTCCTCCGGGACTGCTCTGGACTGACACTGCTCAGGTTCGGATTCCCTCAAAGACTTTGGGAGACAAGACTTGGTCCCCCTTTTACAAACAAGGGAACGGAGGCTCTAGAACTGACTTCCTGAAAGGCTTGGATCCAAAGCTCCCTCAGTTCAGCGGCCACGTCTATTTCCCTCAGACACAGGGATCCTTGAACCTGTGGGCTGTATCTCCCCGCGGACTTGGAAGAATCCCAAGAGAGTGGGGCTCCCACAGGCTGGAGTGCAATGGTGTGATCTCGGCTCACTGCAACCTCCACCTCCCAGGTTCAAGCTATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGATCCTGGTGGCTGTGGTCGGTAATTCCAGCTTCGTGCTGGCTACAGGTGGATGATGCCCACCTGGCTGCCGATGACCTCTGCACCAAGTGAGGCTGGGTCTCTGGAGCTGCCCCAGGGGCTGGACAAGCTGACCCTGGCCGGGGCCAACCTGGAGATGCAGATTGAGAACCTCAAGGAGGACCTGGTCTACCTGAAGAAGAACCACAAGCAGGAAATGAACGTCCTTTGAGGTCAGGTGGATGAGGATGTCAGTGTGAAGATGGACACTGTGCCTGGAGTGAACCTGAGCTGCATCCTGAATGAGATGCGTGACCAGGACAAGACATTGGTGGAGAAGAGCTGCAAGGATGCCGAGGGCTGGTTCTTCAGCATGGTGGGTGGCCGTGCGTAAGCAGGTGTGTACACGTGTGGGCACATGTGCTGCATGCTGGTGCAGCTGGAGCACTGGCAGATCCACAGGCTGTCCCAGTTGGAAGGACTTTTGGAAACCAGTTGGACCAGCCCCTCATGTTTTAGATGTAAAACGTGAGGCTCAGAGAGGACTCAAGCTCACACAGCCCTTCACTGTGGCCTGCAAAATAGATCCAGGTCTCTACAAGTCTGGTCTTGGGTTTCCACCACAGCTGTTTACAGGATGTGCGTATTTGAATACATATGTATACCCTTGGCAAGCACAGGCTGAGTATCTCCGGTATCCTAGGGACAGCAACAGGCGCAAAAGAATAACACCCAGTGCCTGTCTTTGAGGTGCTGCAGTTCAGTAGGAAAAAGAAATGCAAATGACCGCAGAGCAGGCTGAATTCCTCCAAGTTCCAATGTGGGTGCAGAGGCTCTCTGTGTGCAGAAAGAGGGGCTGAACTGCGAGGTGGCCACCAACACAGAGGCCCTGCAGAGTGGCTGGATAGAGATATGGAGCTCTACGTCTCTGTGCAGAACCTGAGCCGTCCCAGCTCAGCAAGAAAGCATCGCTGGAGGGCAGCCTGGTGGAGATGGAGGTGTGTTACAGGACCCTGCCGGCCCAGCTGCAGGGGCTTAACAGAAGCATGGAGCAGCAGCTGTGCGAGCTCTGCTGCGACACGGAGCACCAGGACCACAAGCACAGGTCCTTCTGGACGTGAAGACGTGGCTGGAGCAGGAGATCGCCACCTACCGCCGCTTGCTGGAGGTTGAGGACGCCCAGAGGTGATACTGACGATGCAGGCTGGAGTCTGGCTGAGGAGCCTTGAATGCCAAGTTAAAGCGTCTGGACTAGATCACGTAGGCAATGGGGAGCCATGGAGGGATTTGGAGCAGGAGAGTGAAATGAACATCAAGAGATTTTAGAACATTCACTCTGGCTGCAGAGGGAGAAATGGATCAGAGGGGTCAGGGCGGGGCCAGAGAGATGTGTCAGGGGGCTGGAGCAGGGAGTCTGGCCAGAGAAGTCCCGTGCGGTGGTGGGTAGTGGGGCAGGGGAAGGAAGGTGGTGCACGCAGAAGAGAGGTTATAGCTCAAAACAGCGGGACTGGATGCCTGGATCTCGGGGTAAGCATGGCTCACAGTCAGGACTCAGTAAGTGTCGGGAGAACACATGAAGGAGCAGGCATTGATGGCCCTGGGTTTCTGGTTCTGATGACTGTGTGAGTGGTGAAGAGCAAGGTGGGTGGTGGTTGGGTTTGCAGTTGGGAAGGGTGATCAGGCCTTCAGCTGAGAGTGTCCCGGAGTCTCCATGCTTAGTCACACGTTGCAGCTTTTTGCTCCCCGGAAATGGTGAAGTCCATCTATAGTCTAACAACAGTCTCTCCTGCTTTAATTGGGTCTATTTGTTGGGCCCTCTGGGTTATGGAAAAACCACTTGCTCAGCTTCTCCTTGTAAATTCCTGGTGAGTAGCCACAGAGTGCCGCCAGACCTACTGCTGTGCTGTTTCTTTTTCTTCTTCCTGCTGTGCTGAACCCCTGCCCTTTCATTCTTGGGCCTGCGCTAATTTCTGTGCATTCCCAACTGTGATTTTTCACCAATTTAGGGGAACCTCCTCTGCCAGGGCCTACTTCTCCCCAGCAGTGCTTGCAGGTGCCTGGGCTGGCTGGCATCCCTGGGCTGATGGGTGCTTCTCTCCCTGCAGGCTGGCCACTCAGTACTCCTTGTCCCTGGCCTCGCAGCCCACCCGGGAAGCCACAGTGACCAGCCACCAGGTGTGCCATCGTGGAGGAAGTCCAGGTTGGAGAGGTGGTCTTCTTCTGTGAGCAGGTCCACTTCTCCACCCACTGAGACCCCTTTCTGTCTGCGACAGCCCCACCTCGAGGGCCACGGCACAGCCATCAGCTCCAGCTCCCAGCATGCTACTGCCACGCCCCGAGTGTCCGTCTGGGCCCCGGTGCATGGCCTGTTGTCTTTCTGTATCTACTTTCTGCAGCCCCTCACTGAGGAGGCCTCCTGGGTTTGTCCAGTGCCTACTATTAAAGCTTTGCTCCAAGTTC M21389GCATCCTTTTTGGGCTGCTCACAGCCCCCAGCCTCTATGGTGAAGACATACTTGCTAGCAGCGTCACCAA132CTTGCTGCCAAGAGATCAGTGCTGCAAGGCAAGGTTATTTCTAACTGAGCAGAGCCTGCCAGGAAGAAAGCGTTTGCACCCCACACCACTGTGCAGGTGTGACCGGTGAGCTCACAGCTGCCCCCCAGGCATGCCCAGCCCACTTAATCATTCACAGCTCGACAGCTCTCTCGCCCAGCCCAGTTCTGGAAGGGATAAAAAGGGGGCATCACCGTTCCTGGGTAACAGAGCCACCTTCTGCGTCCTGCTGAGCTCTGTTCTCTCCAGCACCTCCCAACCCACTAGTGCCTGGTTCTCTTGCTCCACCAGGAACAAGCCACCATGTCTCGCCAGTCAAGTGTGTCCTTCCGGAGCGGGGGCAGTCGTAGCTTCAGCACCGCCTCTGCCATCACCCCGTCTGTCTCCCGCACCAGCTTCACCTCCGTGTCCCGGTCCGGGGGTGGCGGTGGTGGTGGCTTCGGCAGGGTCAGCCTTGCGGGTGCTTGTGGAGTGGGTGGCTATGGCAGCCGGAGCCTCTACAACCTGGGGGGCTCCAAGAGGATATCCATCAGCACTAGAGGAGGCAGCTTCAGGAACCGGTTTGGTGCTGGTGCTGGAGGCGGCTATGGCTTTGGAGGTGGTGCCGGTAGTGGATTTGGTTTCGGCGGTGGAGCTGGTGGTGGCTTTGGGCTCGGTGGCGGAGCTGGCTTTGGAGGTGGCTTCGGTGGCCCTGGCTTTCCTGTCTGCCCTCCTGGAGGTATCCAAGAGGTCACTGTCAACCAGAGTCTCCTGACTCCCCTCAACCTGCAAATCGACCCCAGCATCCAGAGGGTGAGGACCGAGGAGCGCGAGCAGATCAAGACCCTCAACAATAAGTTTGCCTCCTTCATCGACAAGGTGCGGTTCCTGGAGCAGCAGAACAAGGTTCTGGACACCAAGTGGACCCTGCTGCAGGAGCAGGGCACCAAGACTGTGAGGCAGAACCTGGAGCCGTTGTTCGAGCAGTACATCAACAACCTCAGGAGGCAGCTGGACAGCATCGTGGGGGAACGGGGCCGCCTGGACTCAGAGCTGAGAAACATGCAGGACCTGGTGGAAGACTTCAAGAACAAGTATGAGGATGAAATCAACAAGCGTACCACTGCTGAGAATGAGTTTGTGATGCTGAAGAAGGATGTAGATGCTGCCTACATGAACAAGGTGGAGCTGGAGGCCAAGGTTGATGCACTGATGGATGAGATTAACTTCATGAAGATGTTCTTTGATGCGGAGCTGTCCCAGATGCAGACGCATGTCTCTGACACCTCAGTGGTCCTCTCCATGGACAACAACCGCAACCTGGACCTGGATAGCATCATCGCTGAGGTCAAGGCCCAGTATGAGGAGATTGCCAACCGCAGCCGGACAGAAGCCGAGTCCTGGTATCAGACCAAGTATGAGGAGCTGCAGCAGACAGCTGGCCGGCATGGCGATGACCTCCGCAACACCAAGCATGAGATCACAGAGATGAACCGGATGATCCAGAGGCTGAGAGCCGAGATTGACAATGTCAAGAAACAGTGCGCCAATCTGCAGAACGCCATTGCGGATGCCGAGCAGCGTGGGGAGCTGGCCCTCAAGGATGCCAGGAACAAGCTGGCCGAGCTGGAGGAGGCCCTGCAGAAGGCCAAGCAGGACATGGCCCGGCTGCTGCGTGAGTACCAGGAGCTCATGAACACCAAGCTGGCCCTGGACGTGGAGATCGCCACTTACCGCAAGCTGCTGGAGGGCGAGGAATGCAGACTCAGTGGAGAAGGAGTTGGACCAGTCAACATCTCTGTTGTCACAAGCAGTGTTTCCTCTGGATATGGCAGTGGCAGTGGCTATGGCGGTGGCCTCGGTGGAGGTCTTGGCGGCGGCCTCGGTGGAGGTCTTGCCGGAGGTAGCAGTGGAAGCTACTACTCCAGCAGCAGTGGGGGTGTCGGCCTAGGTGGTGGGCTCAGTGTGGGGGGCTCTGGCTTCAGTGCAAGCAGTGGCCGAGGGCTGGGGGTGGGCTTTGGCAGTGGCGGGGGTAGCAGCTCCAGCGTCAAATTTGTCTCCACCACCTCCTCCTCCCGGAAGAGCTTCAAGAGCTAAGAACCTGCTGCAAGTCACTGCCTTCCAAGTGCAGCAACCCAGCCCATGGAGATTGCCTCTTCTAGGCAGTTGCTCAAGCCATGTTTTATCCTTTTCTGGAGAGTAGTCTAGACCAAGCCAATTGCAGAACCACATTCTTTGGTTCCCAGGAGAGCCCCATTCCCAGCCCCTGGTCTCCCGTGCCGCAGTTCTATATTCTGCTTCAAATCAGCCTTCAGGTTTCCCACAGCATGGCCCCTGCTGACACGAGAACCCAAAGTTTTCCCAAATCTAAATCATCAAAACAGAATCCCCACCCCAATCCCAAATTTTGTTTTGGTTCTAACTACCTCCAGAATGTGTTCAATAAAATGCTTTTATAATAT NM_001123066GGACGGCCGAGCGGCAGGGCGCTCGCGCGCGCCCACTAGTGGCCGGAGGAGAAGGCTCCCGCGGAGGCCG133CGCTGCCCGCCCCCTCCCCTGGGGAGGCTCGCGTTCCCGCTGCTCGCGCCTGCGCCGCCCGCCGGCCTCAGGAACGCGCCCTCTTCGCCGGCGCGCGCCCTCGCAGTCACCGCCACCCACCAGCTCCGGCACCAACAGCAGCGCCGCTGCCACCGCCCACCTTCTGCCGCCGCCACCACAGCCACCTTCTCCTCCTCCGCTGTCCTCTCCCGTCCTCGCCTCTGTCGACTATCAGGTGAACTTTGAACCAGGATGGCTGAGCCCCGCCAGGAGTTCGAAGTGATGGAAGATCACGCTGGGACGTACGGGTTGGGGGACAGGAAAGATCAGGGGGGCTACACCATGCACCAAGACCAAGAGGGTGACACGGACGCTGGCCTGAAAGAATCTCCCCTGCAGACCCCCACTGAGGACGGATCTGAGGAACCGGGCTCTGAAACCTCTGATGCTAAGAGCACTCCAACAGCGGAAGATGTGACAGCACCCTTAGTGGATGAGGGAGCTCCCGGCAAGCAGGCTGCCGCGCAGCCCCACACGGAGATCCCAGAAGGAACCACAGCTGAAGAAGCAGGCATTGGAGACACCCCCAGCCTGGAAGACGAAGCTGCTGGTCACGTGACCCAAGAGCCTGAAAGTGGTAAGGTGGTCCAGGAAGGCTTCCTCCGAGAGCCAGGCCCCCCAGGTCTGAGCCACCAGCTCATGTCCGGCATGCCTGGGGCTCCCCTCCTGCCTGAGGGCCCCAGAGAGGCCACACGCCAACCTTCGGGGACAGGACCTGAGGACACAGAGGGCGGCCGCCACGCCCCTGAGCTGCTCAAGCACCAGCTTCTAGGAGACCTGCACCAGGAGGGGCCGCCGCTGAAGGGGGCAGGGGGCAAAGAGAGGCCGGGGAGCAAGGAGGAGGTGGATGAAGACCGCGACGTCGATGAGTCCTCCCCCCAAGACTCCCCTCCCTCCAAGGCCTCCCCAGCCCAAGATGGGCGGCCTCCCCAGACAGCCGCCAGAGAAGCCACCAGCATCCCAGGCTTCCCAGCGGAGGGTGCCATCCCCCTCCCTGTGGATTTCCTCTCCAAAGTTTCCACAGAGATCCCAGCCTCAGAGCCCGACGGGCCCAGTGTAGGGCGGGCCAAAGGGCAGGATGCCCCCCTGGAGTTCACGTTTCACGTGGAAATCACACCCAACGTGCAGAAGGAGCAGGCGCACTCGGAGGAGCATTTGGGAAGGGCTGCATTTCCAGGGGCCCCTGGAGAGGGGCCAGAGGCCCGGGGCCCCTCTTTGGGAGAGGACACAAAAGAGGCTGACCTTCCAGAGCCCTCTGAAAAGCAGCCTGCTGCTGCTCCGCGGGGGAAGCCCGTCAGCCGGGTCCCTCAACTCAAAGCTCGCATGGTCAGTAAAAGCAAAGACGGGACTGGAAGCGATGACAAAAAAGCCAAGACATCCACACGTTCCTCTGCTAAAACCTTGAAAAATAGGCCTTGCCTTAGCCCCAAACACCCCACTCCTGGTAGCTCAGACCCTCTGATCCAACCCTCCAGCCCTGCTGTGTGCCCAGAGCCACCTTCCTCTCCTAAATACGTCTCTTCTGTCACTTCCCGAACTGGCAGTTCTGGAGCAAAGGAGATGAAACTCAAGGGGGCTGATGGTAAAACGAAGATCGCCACACCGCGGGGAGCAGCCCCTCCAGGCCAGAAGGGCCAGGCCAACGCCACCAGGATTCCAGCAAAAACCCCGCCCGCTCCAAAGACACCACCCAGCTCTGCGACTAAGCAAGTCCAGAGAAGACCACCCCCTGCAGGGCCCAGATCTGAGAGAGGTGAACCTCCAAAATCAGGGGATCGCAGCGGCTACAGCAGCCCCGGCTCCCCAGGCACTCCCGGCAGCCGCTCCCGCACCCCGTCCCTTCCAACCCCACCCACCCGGGAGCCCAAGAAGGTGGCAGTGGTCCGTACTCCACCCAAGTCGCCGTCTTCCGCCAAGAGCCGCCTGCAGACAGCCCCCGTGCCCATGCCAGACCTGAAGAATGTCAAGTCCAAGATCGGCTCCACTGAGAACCTGAAGCACCAGCCGGGAGGCGGGAAGGTGCAGATAATTAATAAGAAGCTGGATCTTAGCAACGTCCAGTCCAAGTGTGGCTCAAAGGATAATATCAAACACGTCCCGGGAGGCGGCAGTGTGCAAATAGTCTACAAACCAGTTGACCTGAGCAAGGTGACCTCCAAGTGTGGCTCATTAGGCAACATCCATCATAAACCAGGAGGTGGCCAGGTGGAAGTAAAATCTGAGAAGCTTGACTTCAAGGACAGAGTCCAGTCGAAGATTGGGTCCCTGGACAATATCACCCACGTCCCTGGCGGAGGAAATAAAAAGATTGAAACCCACAAGCTGACCTTCCGCGAGAACGCCAAAGCCAAGACAGACCACGGGGCGGAGATCGTGTACAAGTCGCCAGTGGTGTCTGGGGACACGTCTCCACGGCATCTCAGCAATGTCTCCTCCACCGGCAGCATCGACATGGTAGACTCGCCCCAGCTCGCCACGCTAGCTGACGAGGTGTCTGCCTCCCTGGCCAAGCAGGGTTTGTGATCAGGCCCCTGGGGCGGTCAATAATTGTGGAGAGGAGAGAATGAGAGAGTGTGGAAAAAAAAAGAATAATGACCCGGCCCCCGCCCTCTGCCCCCAGCTGCTCCTCGCAGTTCGGTTAATTGGTTAATCACTTAACCTGCTTTTGTCACTCGGCTTTGGCTCGGGACTTCAAAATCAGTGATGGGAGTAAGAGCAAATTTCATCTTTCCAAATTGATGGGTGGGCTAGTAATAAAATATTTAAAAAAAAACATTCAAAAACATGGCCACATCCAACATTTCCTCAGGCAATTCCTTTTGATTCTTTTTTCTTCCCCCTCCATGTAGAAGAGGGAGAAGGAGAGGCTCTGAAAGCTGCTTCTGGGGGATTTCAAGGGACTGGGGGTGCCAACCACCTCTGGCCCTGTTGTGGGGGTGTCACAGAGGCAGTGGCAGCAACAAAGGATTTGAAACTTGGTGTGTTCGTGGAGCCACAGGCAGACGATGTCAACCTTGTGTGAGTGTGACGGGGGTTGGGGTGGGGCGGGAGGCCACGGGGGAGGCCGAGGCAGGGGCTGGGCAGAGGGGAGAGGAAGCACAAGAAGTGGGAGTGGGAGAGGAAGCCACGTGCTGGAGAGTAGACATCCCCCTCCTTGCCGCTGGGAGAGCCAAGGCCTATGCCACCTGCAGCGTCTGAGCGGCCGCCTGTCCTTGGTGGCCGGGGGTGGGGGCCTGCTGTGGGTCAGTGTGCCACCCTCTGCAGGGCAGCCTGTGGGAGAAGGGACAGCGGGTAAAAAGAGAAGGCAAGCTGGCAGGAGGGTGGCACTTCGTGGATGACCTCCTTAGAAAAGACTGACCTTGATGTCTTGAGAGCGCTGGCCTCTTCCTCCCTCCCTGCAGGGTAGGGGGCCTGAGTTGAGGGGCTTCCCTCTGCTCCACAGAAACCCTGTTTTATTGAGTTCTGAAGGTTGGAACTGCTGCCATGATTTTGGCCACTTTGCAGACCTGGGACTTTAGGGCTAACCAGTTCTCTTTGTAAGGACTTGTGCCTCTTGGGAGACGTCCACCCGTTTCCAAGCCTGGGCCACTGGCATCTCTGGAGTGTGTGGGGGTCTGGGAGGCAGGTCCCGAGCCCCCTGTCCTTCCCACGGCCACTGCAGTCACCCCGTCTGCGCCGCTGTGCTGTTGTCTGCCGTGAGAGCCCAATCACTGCCTATACCCCTCATCACACGTCACAATGTCCCGAATTCCCAGCCTCACCACCCCTTCTCAGTAATGACCCTGGTTGGTTGCAGGAGGTACCTACTCCATACTGAGGGTGAAATTAAGGGAAGGCAAAGTCCAGGCACAAGAGTGGGACCCCAGCCTCTCACTCTCAGTTCCACTCATCCAACTGGGACCCTCACCACGAATCTCATGATCTGATTCGGTTCCCTGTCTCCTCCTCCCGTCACAGATGTGAGCCAGGGCACTGCTCAGCTGTGACCCTAGGTGTTTCTGCCTTGTTGACATGGAGAGAGCCCTTTCCCCTGAGAAGGCCTGGCCCCTTCCTGTGCTGAGCCCACAGCAGCAGGCTGGGTGTCTTGGTTGTCAGTGGTGGCACCAGGATGGAAGGGCAAGGCACCCAGGGCAGGCCCACAGTCCCGCTGTCCCCCACTTGCACCCTAGCTTGTAGCTGCCAACCTCCCAGACAGCCCAGCCCGCTGCTCAGCTCCACATGCATAGTATCAGCCCTCCACACCCGACAAAGGGGAACACACCCCCTTGGAAATGGTTCTTTTCCCCCAGTCCCAGCTGGAAGCCATGCTGTCTGTTCTGCTGGAGCAGCTGAACATATACATAGATGTTGCCCTGCCCTCCCCATCTGCACCCTGTTGAGTTGTAGTTGGATTTGTCTGTTTATGCTTGGATTCACCAGAGTGACTATGATAGTGAAAAGAAAAAAAAAAAAAAAAAAGGACGCATGTATCTTGAAATGCTTGTAAAGAGGTTTCTAACCCACCCTCACGAGGTGTCTCTCACCCCCACACTGGGACTCGTGTGGCCTGTGTGGTGCCACCCTGCTGGGGCCTCCCAAGTTTTGAAAGGCTTTCCTCAGCACCTGGGACCCAACAGAGACCAGCTTCTAGCAGCTAAGGAGGCCGTTCAGCTGTGACGAAGGCCTGAAGCACAGGATTAGGACTGAAGCGATGATGTCCCCTTCCCTACTTCCCCTTGGGGCTCCCTGTGTCAGGGCACAGACTAGGTCTTGTGGCTGGTCTGGCTTGCGGCGCGAGGATGGTTCTCTCTGGTCATAGCCCGAAGTCTCATGGCAGTCCCAAAGGAGGCTTACAACTCCTGCATCACAAGAAAAAGGAAGCCACTGCCAGCTGGGGGGATCTGCAGCTCCCAGAAGCTCCGTGAGCCTCAGCCACCCCTCAGACTGGGTTCCTCTCCAAGCTCGCCCTCTGGAGGGGCAGCGCAGCCTCCCACCAAGGGCCCTGCGACCACAGCAGGGATTGGGATGAATTGCCTGTCCTGGATCTGCTCTAGAGGCCCAAGCTGCCTGCCTGAGGAAGGATGACTTGACAAGTCAGGAGACACTGTTCCCAAAGCCTTGACCAGAGCACCTCAGCCCGCTGACCTTGCACAAACTCCATCTGCTGCCATGAGAAAAGGGAAGCCGCCTTTGCAAAACATTGCTGCCTAAAGAAACTCAGCAGCCTCAGGCCCAATTCTGCCACTTCTGGTTTGGGTACAGTTAAAGGCAACCCTGAGGGACTTGGCAGTAGAAATCCAGGGCCTCCCCTGGGGCTGGCAGCTTCGTGTGCAGCTAGAGCTTTACCTGAAAGGAAGTCTCTGGGCCCAGAACTCTCCACCAAGAGCCTCCCTGCCGTTCGCTGAGTCCCAGCAATTCTCCTAAGTTGAAGGGATCTGAGAAGGAGAAGGAAATGTGGGGTAGATTTGGTGGTGGTTAGAGATATGCCCCCCTCATTACTGCCAACAGTTTCGGCTGCATTTCTTCACGCACCTCGGTTCCTCTTCCTGAAGTTCTTGTGCCCTGCTCTTCAGCACCATGGGCCTTCTTATACGGAAGGCTCTGGGATCTCCCCCTTGTGGGGCAGGCTCTTGGGGCCAGCCTAAGATCATGGTTTAGGGTGATCAGTGCTGGCAGATAAATTGAAAAGGCACGCTGGCTTGTGATCTTAAATGAGGACAATCCCCCCAGGGCTGGGCACTCCTCCCCTCCCCTCACTTCTCCCACCTGCAGAGCCAGTGTCCTTGGGTGGGCTAGATAGGATATACTGTATGCCGGCTCCTTCAAGCTGCTGACTCACTTTATCAATAGTTCCATTTAAATTGACTTCAGTGGTGAGACTGTATCCTGTTTGCTATTGCTTGTTGTGCTATGGGGGGAGGGGGGAGGAATGTGTAAGATAGTTAACATGGGCAAAGGGAGATCTTGGGGTGCAGCACTTAAACTGCCTCGTAACCCTTTTCATGATTTCAACCACATTTGCTAGAGGGAGGGAGCAGCCACGGAGTTAGAGGCCCTTGGGGTTTCTCTTTTCCACTGACAGGCTTTCCCAGGCAGCTGGCTAGTTCATTCCCTCCCCAGCCAGGTGCAGGCGTAGGAATATGGACATCTGGTTGCTTTGGCCTGCTGCCCTCTTTCAGGGGTCCTAAGCCCACAATCATGCCTCCCTAAGACCTTGGCATCCTTCCCTCTAAGCCGTTGGCACCTCTGTGCCACCTCTCACACTGGCTCCAGACACACAGCCTGTGCTTTTGGAGCTGAGATCACTCGCTTCACCCTCCTCATCTTTGTTCTCCAAGTAAAGCCACGAGGTCGGGGCGAGGGCAGAGGTGATCACCTGCGTGTCCCATCTACAGACCTGCAGCTTCATAAAACTTCTGATTTCTCTTCAGCTTTGAAAAGGGTTACCCTGGGCACTGGCCTAGAGCCTCACCTCCTAATAGACTTAGCCCCATGAGTTTGCCATGTTGAGCAGGACTATTTCTGGCACTTGCAAGTCCCATGATTTCTTCGGTAATTCTGAGGGTGGGGGGAGGGACATGAAATCATCTTAGCTTAGCTTTCTGTCTGTGAATGTCTATATAGTGTATTGTGTGTTTTAACAAATGATTTACACTGACTGTTGCTGTAAAAGTGAATTTGGAAATAAAGTTATTACTCTGATTAAA M92424GCACCGCGCGAGCTTGGCTGCTTCTGGGGCCTGTGTGGCCCTGTGTGTCGGAAAGATGGAGCAAGAAGCC134GAGCCCGAGGGGCGGCCGCGACCCCTCTGACCGAGATCCTGCTGCTTTCGCAGCCAGGAGCACCGTCCCTCCCCGGATTAGTGCGTACGAGCGCCCAGTGCCCTGGCCCGGAGAGTGGAATGATCCCCGAGGCCCAGGGCGTCGTGCTTCCGCAGTAGTCAGTCCCCGTGAAGGAAACTGGGGAGTCTTGAGGGACCCCCGACTCCAAGCGCGAAAACCCCGGATGGTGAGGAGCAGGCAAATGTGCAATACCAACATGTCTGTACCTACTGATGGTGCTGTAACCACCTCACAGATTCCAGCTTCGGAACAAGAGACCCTGGTTAGACCAAAGCCATTGCTTTTGAAGTTATTAAAGTCTGTTGGTGCACAAAAAGACACTTATACTATGAAAGAGGTTCTTTTTTATCTTGGCCAGTATATTATGACTAAACGATTATATGATGAGAAGCAACAACATATTGTATATTGTTCAAATGATCTTCTAGGAGATTTGTTTGGCGTGCCAAGCTTCTCTGTGAAAGAGCACAGGAAAATATATACCATGATCTACAGGAACTTGGTAGTAGTCAATCAGCAGGAATCATCGGACTCAGGTACATCTGTGAGTGAGAACAGGTGTCACCTTGAAGGTGGGAGTGATCAAAAGGACCTTGTACAAGAGCTTCAGGAAGAGAAACCTTCATCTTCACATTTGGTTTCTAGACCATCTACCTCATCTAGAAGGAGAGCAATTAGTGAGACAGAAGAAAATTCAGATGAATTATCTGGTGAACGACAAAGAAAACGCCACAAATCTGATAGTATTTCCCTTTCCTTTGATGAAAGCCTGGCTCTGTGTGTAATAAGGGAGATATGTTGTGAAAGAAGCAGTAGCAGTGAATCTACAGGGACGCCATCGAATCCGGATCTTGATGCTGGTGTAAGTGAACATTCAGGTGATTGGTTGGATCAGGATTCAGTTTCAGATCAGTTTAGTGTAGAATTTGAAGTTGAATCTCTCGACTCAGAAGATTATAGCCTTAGTGAAGAAGGACAAGAACTCTCAGATGAAGATGATGAGGTATATCAAGTTACTGTGTATCAGGCAGGGGAGAGTGATACAGATTCATTTGAAGAAGATCCTGAAATTTCCTTAGCTGACTATTGGAAATGCACTTCATGCAATGAAATGAATCCCCCCCTTCCATCACATTGCAACAGATGTTGGGCCCTTCGTGAGAATTGGCTTCCTGAAGATAAAGGGAAAGATAAAGGGGAAATCTCTGAGAAAGCCAAACTGGAAAACTCAACACAAGCTGAAGAGGGCTTTGATGTTCCTGATTGTAAAAAAACTATAGTGAATGATTCCAGAGAGTCATGTGTTGAGGAAAATGATGATAAAATTACACAAGCTTCACAATCACAAGAAAGTGAAGACTATTCTCAGCCATCAACTTCTAGTAGCATTATTTATAGCAGCCAAGAAGATGTGAAAGAGTTTGAAAGGGAAGAAACCCAAGACAAAGAAGAGAGTGTGGAATCTAGTTTGCCCCTTAATGCCATTGAACCTTGTGTGATTTGTCAAGGTCGACCTAAAAATGGTTGCATTGTCCATGGCAAAACAGGACATCTTATGGCCTGCTTTACATGTGCAAAGAAGCTAAAGAAAAGGAATAAGCCCTGCCCAGTATGTAGACAACCAATTCAAATGATTGTGCTAACTTATTTCCCCTAGTTGACCTGTCTATAAGAGAATTATATATTTCTAACTATATAACCCTAGGAATTTAGACAACCTGAAATTTATTCACATATATCAAAGTGAGAAAATGCCTCAATTCACATAGATTTCTTCTCTTTAGTATAATTGACCTACTTTGGTAGTGGAATAGTGAATACTTACTATAATTTGACTTGAATATGTAGCTCATCCTTTACACCAACTCCTAATTTTAAATAATTTCTACTCTGTCTTAAATGAGAAGTACTTGGTTTTTTTTTTCTTAAATATGTATATGACATTTAAATGTAACTTATTATTTTTTTTGAGACCGAGTCTTGCTCTGTTACCCAGGCTGGAGTGCAGTGGGTGATCTTGGCTCACTGCAAGCTCTGCCCTCCCCGGGTTCGCACCATTCTCCTGCCTCAGCCTCCCAATTAGCTTGGCCTACAGTCATCTGCCACCACACCTGGCTAATTTTTTGTACTTTTAGTAGAGACAGGGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCCGCCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCG NM_014791GAGATTTGATTCCCTTGGCGGGCGGAAGCGGCCACAACCCGGCGATCGAAAAGATTCTTAGGAACGCCGT135ACCAGCCGCGTCTCTCAGGACAGCAGGCCCCTGTCCTTCTGTCGGGCGCCGCTCAGCCGTGCCCTCCGCCCCTCAGGTTCTTTTTCTAATTCCAAATAAACTTGCAAGAGGACTATGAAAGATTATGATGAACTTCTCAAATATTATGAATTACATGAAACTATTGGGACAGGTGGCTTTGCAAAGGTCAAACTTGCCTGCCATATCCTTACTGGAGAGATGGTAGCTATAAAAATCATGGATAAAAACACACTAGGGAGTGATTTGCCCCGGATCAAAACGGAGATTGAGGCCTTGAAGAACCTGAGACATCAGCATATATGTCAACTCTACCATGTGCTAGAGACAGCCAACAAAATATTCATGGTTCTTGAGTACTGCCCTGGAGGAGAGCTGTTTGACTATATAATTTCCCAGGATCGCCTGTCAGAAGAGGAGACCCGGGTTGTCTTCCGTCAGATAGTATCTGCTGTTGCTTATGTGCACAGCCAGGGCTATGCTCACAGGGACCTCAAGCCAGAAAATTTGCTGTTTGATGAATATCATAAATTAAAGCTGATTGACTTTGGTCTCTGTGCAAAACCCAAGGGTAACAAGGATTACCATCTACAGACATGCTGTGGGAGTCTGGCTTATGCAGCACCTGAGTTAATACAAGGCAAATCATATCTTGGATCAGAGGCAGATGTTTGGAGCATGGGCATACTGTTATATGTTCTTATGTGTGGATTTCTACCATTTGATGATGATAATGTAATGGCTTTATACAAGAAGATTATGAGAGGAAAATATGATGTTCCCAAGTGGCTCTCTCCCAGTAGCATTCTGCTTCTTCAACAAATGCTGCAGGTGGACCCAAAGAAACGGATTTCTATGAAAAATCTATTGAACCATCCCTGGATCATGCAAGATTACAACTATCCTGTTGAGTGGCAAAGCAAGAATCCTTTTATTCACCTCGATGATGATTGCGTAACAGAACTTTCTGTACATCACAGAAACAACAGGCAAACAATGGAGGATTTAATTTCACTGTGGCAGTATGATCACCTCACGGCTACCTATCTTCTGCTTCTAGCCAAGAAGGCTCGGGGAAAACCAGTTCGTTTAAGGCTTTCTTCTTTCTCCTGTGGACAAGCCAGTGCTACCCCATTCACAGACATCAAGTCAAATAATTGGAGTCTGGAAGATGTGACCGCAAGTGATAAAAATTATGTGGCGGGATTAATAGACTATGATTGGTGTGAAGATGATTTATCAACAGGTGCTGCTACTCCCCGAACATCACAGTTTACCAAGTACTGGACAGAATCAAATGGGGTGGAATCTAAATCATTAACTCCAGCCTTATGCAGAACACCTGCAAATAAATTAAAGAACAAAGAAAATGTATATACTCCTAAGTCTGCTGTAAAGAATGAAGAGTACTTTATGTTTCCTGAGCCAAAGACTCCAGTTAATAAGAACCAGCATAAGAGAGAAATACTCACTACGCCAAATCGTTACACTACACCCTCAAAAGCTAGAAACCAGTGCCTGAAAGAAACTCCAATTAAAATACCAGTAAATTCAACAGGAACAGACAAGTTAATGACAGGTGTCATTAGCCCTGAGAGGCGGTGCCGCTCAGTGGAATTGGATCTCAACCAAGCACATATGGAGGAGACTCCAAAAAGAAAGGGAGCCAAAGTGTTTGGGAGCCTTGAAAGGGGGTTGGATAAGGTTATCACTGTGCTCACCAGGAGCAAAAGGAAGGGTTCTGCCAGAGACGGGCCCAGAAGACTAAAGCTTCACTATAACGTGACTACAACTAGATTAGTGAATCCAGATCAACTGTTGAATGAAATAATGTCTATTCTTCCAAAGAAGCATGTTGACTTTGTACAAAAGGGTTATACACTGAAGTGTCAAACACAGTCAGATTTTGGGAAAGTGACAATGCAATTTGAATTAGAAGTGTGCCAGCTTCAAAAACCCGATGTGGTGGGTATCAGGAGGCAGCGGCTTAAGGGCGATGCCTGGGTTTACAAAAGATTAGTGGAAGACATCCTATCTAGCTGCAAGGTATAATTGATGGATTCTTCCATCCTGCCGGATGAGTGTGGGTGTGATACAGCCTACATAAAGACTGTTATGATCGCTTTGATTTTAAAGTTCATTGGAACTACCAACTTGTTTCTAAAGAGCTATCTTAAGACCAATATCTCTTTGTTTTTAAACAAAAGATATTATTTTGTGTATGAATCTAAATCAAGCCCATCTGTCATTATGTTACTGTCTTTTTTAATCATGTGGTTTTGTATATTAATAATTGTTGACTTTCTTAGATTCACTTCCATATGTGAATGTAAGCTCTTAACTATGTCTCTTTGTAATGTGTAATTTCTTTCTGAAATAAAACCATTTGTGAATATAG BG765502GCAGCGGAGGAGCCCAGTCCACGATGGCCCGGTCCCTGGTGTGCCTTGGTGTCATCATCTTGCTGTCTGCCTTCTCCGGACCTGGTGTCAGGGGTGGTCCTATGCCCAAGCTGGCTGACCGGAAGCTGTGTGCGGACCAGGAGTGCAGCCACCCTATCTCCATGGCTGTGGCCCTTCAGGACTACATGGCCCCCGACTGCCGATTCCTGACCATTCACCGGGGCCAAGTGGTGTATGTCTTCTCCAAGCTGAAGGGCCGTGGGCGGCTCTTCTGGGGAGGCAGCGTTCAGGGAGATTACTATGGAGATCTGGCTGCTCGCCTGGGCTATTTCCCCAGTAGCATTGTCCGAGAGGACCAGACCCTGAAACCTGGCAAAGTCGATGTGAAGACAGACAAATGGGATTTCTACTGCCAGTGAGCTCAGCCTACCGCTGGCCCTGCCGTTTCCCCTCCTTGGGTTTATGCAAATACAATCAGCCCAGTGCAAAAAAAAAAAAAAAAAAAAAAAACTTCGGAGAAGAGATAGCAACAAAAGGCCGCTTGTGTGAAGGCGCCAAAAGTTTTCGCCCAAGAGACCTTCGGCCTCCCCCAGGGCGCGCGCAAAGGCGCCTTGTTTTGACAACCTCTTGGACAACCGGAGGGGCTACCGCCCGGAGACCCCTGTGGTGGACCCCCCGGGCAACCCGGTGTGACAGGGTACTCACCCCCACGGCTTTGTCGGGGGTCCCACCAAAGGCCCCAAAGAGGCTCTTTCAAGGCACTATTCCTTGTTGTAGACCTTGTGTGTGCCACAGGCGCCAAAGAAACCTCGGGGGGCTAACAAACGCACGTGCTTGGCAGCTCCGAGAAGGCTCTCTCCCACCCGAGGGGTGGACGCAACAGGGGGAATGGGCCATCATATTGTTGCCCCCGGTGGGCACCAACTCTTTTTCCCCCATAGAGAGGCCTTAGCACACTATGTGGGGCACGTTATTGCCGCCTAGAGAAACCGAGCGCCAGAAAATTTCGAAGGGGGGGGCGCTTCTCATCATTTTGCGCAAAACCCCCTTGTGGGAGTATGCCCCGAACTCCTCTGGAACACACAAGCGACACTTGCGCGGGGTCTGCAAAAAACCTCCTGTTGGGAAGCCGGCTTCACN NM_002417TACCGGGCGGAGGTGAGCGCGGCGCCGGCTCCTCCTGCGGCGGACTTTGGGTGCGACTTGACGAGCGGTG137GTTCGACAAGTGGCCTTGCGGGCCGGATCGTCCCAGTGGAAGAGTTGTAAATTTGCTTCTGGCCTTCCCCTACGGATTATACCTGGCCTTCCCCTACGGATTATACTCAACTTACTGTTTAGAAAATGTGGCCCACGAGACGCCTGGTTACTATCAAAAGGAGCGGGGTCGACGGTCCCCACTTTCCCCTGAGCCTCAGCACCTGCTTGTTTGGAAGGGGTATTGAATGTGACATCCGTATCCAGCTTCCTGTTGTGTCAAAACAACATTGCAAAATTGAAATCCATGAGCAGGAGGCAATATTACATAATTTCAGTTCCACAAATCCAACACAAGTAAATGGGTCTGTTATTGATGAGCCTGTACGGCTAAAACATGGAGATGTAATAACTATTATTGATCGTTCCTTCAGGTATGAAAATGAAAGTCTTCAGAATGGAAGGAAGTCAACTGAATTTCCAAGAAAAATACGTGAACAGGAGCCAGCACGTCGTGTCTCAAGATCTAGCTTCTCTTCTGACCCTGATGAGAAAGCTCAAGATTCCAAGGCCTATTCAAAAATCACTGAAGGAAAAGTTTCAGGAAATCCTCAGGTACATATCAAGAATGTCAAAGAAGACAGTACCGCAGATGACTCAAAAGACAGTGTTGCTCAGGGAACAACTAATGTTCATTCCTCAGAACATGCTGGACGTAATGGCAGAAATGCAGCTGATCCCATTTCTGGGGATTTTAAAGAAATTTCCAGCGTTAAATTAGTGAGCCGTTATGGAGAATTGAAGTCTGTTCCCACTACACAATGTCTTGACAATAGCAAAAAAAATGAATCTCCCTTTTGGAAGCTTTATGAGTCAGTGAAGAAAGAGTTGGATGTAAAATCACAAAAAGAAAATGTCCTACAGTATTGTAGAAAATCTGGATTACAAACTGATTACGCAACAGAGAAAGAAAGTGCTGATGGTTTACAGGGGGAGACCCAACTGTTGGTCTCGCGTAAGTCAAGACCAAAATCTGGTGGGAGCGGCCACGCTGTGGCAGAGCCTGCTTCACCTGAACAAGAGCTTGACCAGAACAAGGGGAAGGGAAGAGACGTGGAGTCTGTTCAGACTCCCAGCAAGGCTGTGGGCGCCAGCTTTCCTCTCTATGAGCCGGCTAAAATGAAGACCCCTGTACAATATTCACAGCAACAAAATTCTCCACAAAAACATAAGAACAAAGACCTGTATACTACTGGTAGAAGAGAATCTGTGAATCTGGGTAAAAGTGAAGGCTTCAAGGCTGGTGATAAAACTCTTACTCCCAGGAAGCTTTCAACTAGAAATCGAACACCAGCTAAAGTTGAAGATGCAGCTGACTCTGCCACTAAGCCAGAAAATCTCTCTTCCAAAACCAGAGGAAGTATTCCTACAGATGTGGAAGTTCTGCCTACGGAAACTGAAATTCACAATGAGCCATTTTTAACTCTGTGGCTCACTCAAGTTGAGAGGAAGATCCAAAAGGATTCCCTCAGCAAGCCTGAGAAATTGGGCACTACAGCTGGACAGATGTGCTCTGGGTTACCTGGTCTTAGTTCAGTTGATATCAACAACTTTGGTGATTCCATTAATGAGAGTGAGGGAATACCTTTGAAAAGAAGGCGTGTGTCCTTTGGTGGGCACCTAAGACCTGAACTATTTGATGAAAACTTGCCTCCTAATACGCCTCTCAAAAGGGGAGAAGCCCCAACCAAAAGAAAGTCTCTGGTAATGCACACTCCACCTGTCCTGAAGAAAATCATCAAGGAACAGCCTCAACCATCAGGAAAACAAGAGTCAGGTTCAGAAATCCATGTGGAAGTGAAGGCACAAAGCTTGGTTATAAGCCCTCCAGCTCCTAGTCCTAGGAAAACTCCAGTTGCCAGTGATCAACGCCGTAGGTCCTGCAAAACAGCCCCTGCTTCCAGCAGCAAATCTCAGACAGAGGTTCCTAAGAGAGGAGGGAGAAAGAGTGGCAACCTGCCTTCAAAGAGAGTGTCTATCAGCCGAAGTCAACATGATATTTTACAGATGATATGTTCCAAAAGAAGAAGTGGTGCTTCGGAAGCAAATCTGATTGTTGCAAAATCATGGGCAGATGTAGTAAAACTTGGTGCAAAACAAACACAAACTAAAGTCATAAAACATGGTCCTCAAAGGTCAATGAACAAAAGGCAAAGAAGACCTGCTACTCCAAAGAAGCCTGTGGGCGAAGTTCACAGTCAATTTAGTACAGGCCACGCAAACTCTCCTTGTACCATAATAATAGGGAAAGCTCATACTGAAAAAGTACATGTGCCTGCTCGACCCTACAGAGTGCTCAACAACTTCATTTCCAACCAAAAAATGGACTTTAAGGAAGATCTTTCAGGAATAGCTGAAATGTTCAAGACCCCAGTGAAGGAGCAACCGCAGTTGACAAGCACATGTCACATCGCTATTTCAAATTCAGAGAATTTGCTTGGAAAACAGTTTCAAGGAACTGATTCAGGAGAAGAACCTCTGCTCCCCACCTCAGAGAGTTTTGGAGGAAATGTGTTCTTCAGTGCACAGAATGCAGCAAAACAGCCATCTGATAAATGCTCTGCAAGCCCTCCCTTAAGACGGCAGTGTATTAGAGAAAATGGAAACGTAGCAAAAACGCCCAGGAACACCTACAAAATGACTTCTCTGGAGACAAAAACTTCAGATACTGAGACAGAGCCTTCAAAAACAGTATCCACTGCAAACAGGTCAGGAAGGTCTACAGAGTTCAGGAATATACAGAAGCTACCTGTGGAAAGTAAGAGTGAAGAAACAAATACAGAAATTGTTGAGTGCATCCTAAAAAGAGGTCAGAAGGCAACACTACTACAACAAAGGAGAGAAGGAGAGATGAAGGAAATAGAAAGACCTTTTGAGACATATAAGGAAAATATTGAATTAAAAGAAAACGATGAAAAGATGAAAGCAATGAAGAGATCAAGAACTTGGGGGCAGAAATGTGCACCAATGTCTGACCTGACAGACCTCAAGAGCTTGCCTGATACAGAACTCATGAAAGACACGGCACGTGGCCAGAATCTCCTCCAAACCCAAGATCATGCCAAGGCACCAAAGAGTGAGAAAGGCAAAATCACTAAAATGCCCTGCCAGTCATTACAACCAGAACCAATAAACACCCCAACACACACAAAACAACAGTTGAAGGCATCCCTGGGGAAAGTAGGTGTGAAAGAAGAGCTCCTAGCAGTCGGCAAGTTCACACGGACGTCAGGGGAGACCACGCACACGCACAGAGAGCCAGCAGGAGATGGCAAGAGCATCAGAACGTTTAAGGAGTCTCCAAAGCAGATCCTGGACCCAGCAGCCCGTGTAACTGGAATGAAGAAGTGGCCAAGAACGCCTAAGGAAGAGGCCCAGTCACTAGAAGACCTGGCTGGCTTCAAAGAGCTCTTCCAGACACCAGGTCCCTCTGAGGAATCAATGACTGATGAGAAAACTACCAAAATAGCCTGCAAATCTCCACCACCAGAATCAGTGGACACTCCAACAAGCACAAAGCAATGGCCTAAGAGAAGTCTCAGGAAAGCAGATGTAGAGGAAGAATTCTTAGCACTCAGGAAACTAACACCATCAGCAGGGAAAGCCATGCTTACGCCCAAACCAGCAGGAGGTGATGAGAAAGACATTAAAGCATTTATGGGAACTCCAGTGCAGAAACTGGACCTGGCAGGAACTTTACCTGGCAGCAAAAGACAGCTACAGACTCCTAAGGAAAAGGCCCAGGCTCTAGAAGACCTGGCTGGCTTTAAAGAGCTCTTCCAGACTCCTGGTCACACCGAGGAATTAGTGGCTGCTGGTAAAACCACTAAAATACCCTGCGACTCTCCACAGTCAGACCCAGTGGACACCCCAACAAGCACAAAGCAACGACCCAAGAGAAGTATCAGGAAAGCAGATGTAGAGGGAGAACTCTTAGCGTGCAGGAATCTAATGCCATCAGCAGGCAAAGCCATGCACACGCCTAAACCATCAGTAGGTGAAGAGAAAGACATCATCATATTTGTGGGAACTCCAGTGCAGAAACTGGACCTGACAGAGAACTTAACCGGCAGCAAGAGACGGCCACAAACTCCTAAGGAAGAGGCCCAGGCTCTGGAAGACCTGACTGGCTTTAAAGAGCTCTTCCAGACCCCTGGTCATACTGAAGAAGCAGTGGCTGCTGGCAAAACTACTAAAATGCCCTGCGAATCTTCTCCACCAGAATCAGCAGACACCCCAACAAGCACAAGAAGGCAGCCCAAGACACCTTTGGAGAAAAGGGACGTACAGAAGGAGCTCTCAGCCCTGAAGAAGCTCACACAGACATCAGGGGAAACCACACACACAGATAAAGTACCAGGAGGTGAGGATAAAAGCATCAACGCGTTTAGGGAAACTGCAAAACAGAAACTGGACCCAGCAGCAAGTGTAACTGGTAGCAAGAGGCACCCAAAAACTAAGGAAAAGGCCCAACCCCTAGAAGACCTGGCTGGCTTGAAAGAGCTCTTCCAGACACCAGTATGCACTGACAAGCCCACGACTCACGAGAAAACTACCAAAATAGCCTGCAGATCACAACCAGACCCAGTGGACACACCAACAAGCTCCAAGCCACAGTCCAAGAGAAGTCTCAGGAAAGTGGACGTAGAAGAAGAATTCTTCGCACTCAGGAAACGAACACCATCAGCAGGCAAAGCCATGCACACACCCAAACCAGCAGTAAGTGGTGAGAAAAACATCTACGCATTTATGGGAACTCCAGTGCAGAAACTGGACCTGACAGAGAACTTAACTGGCAGCAAGAGACGGCTACAAACTCCTAAGGAAAAGGCCCAGGCTCTAGAAGACCTGGCTGGCTTTAAAGAGCTCTTCCAGACACGAGGTCACACTGAGGAATCAATGACTAACGATAAAACTGCCAAAGTAGCCTGCAAATCTTCACAACCAGACCCAGACAAAAACCCAGCAAGCTCCAAGCGACGGCTCAAGACATCCCTGGGGAAAGTGGGCGTGAAAGAAGAGCTCCTAGCAGTTGGCAAGCTCACACAGACATCAGGAGAGACTACACACACACACACAGAGCCAACAGGAGATGGTAAGAGCATGAAAGCATTTATGGAGTCTCCAAAGCAGATCTTAGACTCAGCAGCAAGTCTAACTGGCAGCAAGAGGCAGCTGAGAACTCCTAAGGGAAAGTCTGAAGTCCCTGAAGACCTGGCCGGCTTCATCGAGCTCTTCCAGACACCAAGTCACACTAAGGAATCAATGACTAACGAAAAAACTACCAAAGTATCCTACAGAGCTTCACAGCCAGACCTAGTGGACACCCCAACAAGCTCCAAGCCACAGCCCAAGAGAAGTCTCAGGAAAGCAGACACTGAAGAAGAATTTTTAGCATTTAGGAAACAAACGCCATCAGCAGGCAAAGCCATGCACACACCCAAACCAGCAGTAGGTGAAGAGAAAGACATCAACACGTTTTTGGGAACTCCAGTGCAGAAACTGGACCAGCCAGGAAATTTACCTGGCAGCAATAGACGGCTACAAACTCGTAAGGAAAAGGCCCAGGCTCTAGAAGAACTGACTGGCTTCAGAGAGCTTTTCCAGACACCATGCACTGATAACCCCACGACTGATGAGAAAACTACCAAAAAAATACTCTGCAAATCTCCGCAATCAGACCCAGCGGACACCCCAACAAACACAAAGCAACGGCCCAAGAGAAGCCTCAAGAAAGCAGACGTAGAGGAAGAATTTTTAGCATTCAGGAAACTAACACCATCAGCAGGCAAAGCCATGCACACGCCTAAAGCAGCAGTAGGTGAAGAGAAAGACATCAACACATTTGTGGGGACTCCAGTGGAGAAACTGGACCTGCTAGGAAATTTACCTGGCAGCAAGAGACGGCCACAAACTCCTAAAGAAAAGGCCAAGGCTCTAGAAGATCTGGCTGGCTTCAAAGAGCTCTTCCAGACACCAGGTCACACTGAGGAATCAATGACCGATGACAAAATCACAGAAGTATCCTGCAAATCTCCACAACCAGACCCAGTCAAAACCCCAACAAGCTCCAAGCAACGACTCAAGATATCCTTGGGGAAAGTAGGTGTGAAAGAAGAGGTCCTACCAGTCGGCAAGCTCACACAGACGTCAGGGAAGACCACACAGACACACAGAGAGACAGCAGGAGATGGAAAGAGCATCAAAGCGTTTAAGGAATCTGCAAAGCAGATGCTGGACCCAGCAAACTATGGAACTGGGATGGAGAGGTGGCCAAGAACACCTAAGGAAGAGGCCCAATCACTAGAAGACCTGGCCGGCTTCAAAGAGCTCTTCCAGACACCAGACCACACTGAGGAATCAACAACTGATGACAAAACTACCAAAATAGCCTGCAAATCTCCACCACCAGAATCAATGGACACTCCAACAAGCACAAGGAGGCGGCCCAAAACACCTTTGGGGAAAAGGGATATAGTGGAAGAGCTCTCAGCCCTGAAGCAGCTCACACAGACCACACACACAGACAAAGTACCAGGAGATGAGGATAAAGGCATCAACGTGTTCAGGGAAACTGCAAAACAGAAACTGGACCCAGCAGCAAGTGTAACTGGTAGCAAGAGGCAGCCAAGAACTCCTAAGGGAAAAGCCCAACCCCTAGAAGACTTGGCTGGCTTGAAAGAGCTCTTCCAGACACCAATATGCACTGACAAGCCCACGACTCATGAGAAAACTACCAAAATAGCCTGCAGATCTCCACAACCAGACCCAGTGGGTACCCCAACAATCTTCAAGCCACAGTCCAAGAGAAGTCTCAGGAAAGCAGACGTAGAGGAAGAATCCTTAGCACTCAGGAAACGAACACCATCAGTAGGGAAAGCTATGGACACACCCAAACCAGCAGGAGGTGATGAGAAAGACATGAAAGCATTTATGGGAACTCCAGTGCAGAAATTGGACCTGCCAGGAAATTTACCTGGCAGCAAAAGATGGCCACAAACTCCTAAGGAAAAGGCCCAGGCTCTAGAAGACCTGGCTGGCTTCAAAGAGCTCTTCCAGACACCAGGCACTGACAAGCCCACGACTGATGAGAAAACTACCAAAATAGCCTGCAAATCTCCACAACCAGACCCAGTGGACACCCCAGCAAGCACAAAGCAACGGCCCAAGAGAAACCTCAGGAAAGCAGACGTAGAGGAAGAATTTTTAGCACTCAGGAAACGAACACCATCAGCAGGCAAAGCCATGGACACACCAAAACCAGCAGTAAGTGATGAGAAAAATATCAACACATTTGTGGAAACTCCAGTGCAGAAACTGGACCTGCTAGGAAATTTACCTGGCAGCAAGAGACAGCCACAGACTCCTAAGGAAAAGGCTGAGGCTCTAGAGGACCTGGTTGGCTTCAAAGAACTCTTCCAGACACCAGGTCACACTGAGGAATCAATGACTGATGACAAAATCACAGAAGTATCCTGTAAATCTCCACAGCCAGAGTCATTCAAAACCTCAAGAAGCTCCAAGCAAAGGCTCAAGATACCCCTGGTGAAAGTGGACATGAAAGAAGAGCCCCTAGCAGTCAGCAAGCTCACACGGACATCAGGGGAGACTACGCAAACACACACAGAGCCAACAGGAGATAGTAAGAGCATCAAAGCGTTTAAGGAGTCTCCAAAGCAGATCCTGGACCCAGCAGCAAGTGTAACTGGTAGCAGGAGGCAGCTGAGAACTCGTAAGGAAAAGGCCCGTGCTCTAGAAGACCTGGTTGACTTCAAAGAGCTCTTCTCAGCACCAGGTCACACTGAAGAGTCAATGACTATTGACAAAAACACAAAAATTCCCTGCAAATCTCCCCCACCAGAACTAACAGACACTGCCACGAGCACAAAGAGATGCCCCAAGACACGTCCCAGGAAAGAAGTAAAAGAGGAGCTCTCAGCAGTTGAGAGGCTCACGCAAACATCAGGGCAAAGCACACACACACACAAAGAACCAGCAAGCGGTGATGAGGGCATCAAAGTATTGAAGCAACGTGCAAAGAAGAAACCAAACCCAGTAGAAGAGGAACCCAGCAGGAGAAGGCCAAGAGCACCTAAGGAAAAGGCCCAACCCCTGGAAGACCTGGCCGGCTTCACAGAGCTCTCTGAAACATCAGGTCACACTCAGGAATCACTGACTGCTGGCAAAGCCACTAAAATACCCTGCGAATCTCCCCCACTAGAAGTGGTAGACACCACAGCAAGCACAAAGAGGCATCTCAGGACACGTGTGCAGAAGGTACAAGTAAAAGAAGAGCCTTCAGCAGTCAAGTTCACACAAACATCAGGGGAAACCACGGATGCAGACAAAGAACCAGCAGGTGAAGATAAAGGCATCAAAGCATTGAAGGAATCTGCAAAACAGACACCGGCTCCAGCAGCAAGTGTAACTGGCAGCAGGAGACGGCCAAGAGCACCCAGGGAAAGTGCCCAAGCCATAGAAGACCTAGCTGGCTTCAAAGACCCAGCAGCAGGTCACACTGAAGAATCAATGACTGATGACAAAACCACTAAAATACCCTGCAAATCATCACCAGAACTAGAAGACACCGCAACAAGCTCAAAGAGACGGCCCAGGACACGTGCCCAGAAAGTAGAAGTGAAGGAGGAGCTGTTAGCAGTTGGCAAGCTCACACAAACCTCAGGGGAGACCACGCACACCGACAAAGAGCCGGTAGGTGAGGGCAAAGGCACGAAAGCATTTAAGCAACCTGCAAAGCGGAAGCTGGACGCAGAAGATGTAATTGGCAGCAGGAGACAGCCAAGAGCACCTAAGGAAAAGGCCCAACCCCTGGAAGATCTGGCCAGCTTCCAAGAGCTCTCTCAAACACCAGGCCACACTGAGGAACTGGCAAATGGTGCTGCTGATAGCTTTACAAGCGCTCCAAAGCAAACACCTGACAGTGGAAAACCTCTAAAAATATCCAGAAGAGTTCTTCGGGCCCCTAAAGTAGAACCCGTGGGAGACGTGGTAAGCACCAGAGACCCTGTAAAATCACAAAGCAAAAGCAACACTTCCCTGCCCCCACTGCCCTTCAAGAGGGGAGGTGGCAAAGATGGAAGCGTCACGGGAACCAAGAGGCTGCGCTGCATGCCAGCACCAGAGGAAATTGTGGAGGAGCTGCCAGCCAGCAAGAAGCAGAGGGTTGCTCCCAGGGCAAGAGGCAAATCATCCGAACCCGTGGTCATCATGAAGAGAAGTTTGAGGACTTCTGCAAAAAGAATTGAACCTGCGGAAGAGCTGAACAGCAACGACATGAAAACCAACAAAGAGGAACACAAATTACAAGACTCGGTCCCTGAAAATAAGGGAATATCCCTGCGCTCCAGACGCCAAAATAAGACTGAGGCAGAACAGCAAATAACTGAGGTCTTTGTATTAGCAGAAAGAATAGAAATAAACAGAAATGAAAAGAAGCCCATGAAGACCTCCCCAGAGATGGACATTCAGAATCCAGATGATGGAGCCCGGAAACCCATACCTAGAGACAAAGTCACTGAGAACAAAAGGTGCTTGAGGTCTGCTAGACAGAATGAGAGCTCCCAGCCTAAGGTGGCAGAGGAGAGCGGAGGGCAGAAGAGTGCGAAGGTTCTCATGCAGAATCAGAAAGGGAAAGGAGAAGCAGGAAATTCAGACTCCATGTGCCTGAGATCAAGAAAGACAAAAAGCCAGCCTGCAGCAAGCACTTTGGAGAGCAAATCTGTGCAGAGAGTAACGCGGAGTGTCAAGAGGTGTGCAGAAAATCCAAAGAAGGCTGAGGACAATGTGTGTGTCAAGAAAATAAGAACCAGAAGTCATAGGGACAGTGAAGATATTTGACAGAAAAATCGAACTGGGAAAAATATAATAAAGTTAGTTTTGTGATAAGTTCTAGTGCAGTTTTTGTCATAAATTACAAGTGAATTCTGTAAGTAAGGCTGTCAGTCTGCTTAAGGGAAGAAAACTTTGGATTTGCTGGGTCTGAATCGGCTTCATAAACTCCACTGGGAGCACTGCTGGGCTCCTGGACTGAGAATAGTTGAACACCGGGGGCTTTGTGAAGGAGTCTGGGCCAAGGTTTGCCCTCAGCTTTGCAGAATGAAGCCTTGAGGTCTGTCACCACCCACAGCCACCCTACAGCAGCCTTAACTGTGACACTTGCCACACTGTGTCGTCGTTTGTTTGCCTATGTCCTCCAGGGCACGGTGGCAGGAACAACTATCCTCGTCTGTCCCAACACTGAGCAGGCACTCGGTAAACACGAATGAATGGATGAGCGCACGGATGAATGGAGCTTACAAGATCTGTCTTTCCAATGGCCGGGGGCATTTGGTCCCCAAATTAAGGCTATTGGACATCTGCACAGGACAGTCCTATTTTTGATGTCCTTTCCTTTCTGAAAATAAAGTTTTGTGCTTTGGAGAATGACTCGTGAGCACATCTTTAGGGACCAAGAGTGACTTTCTGTAAGGAGTGACTCGTGGCTTGCCTTGGTCTCTTGGGAATACTTTTCTAACTAGGGTTGCTCTCACCTGAGACATTCTCCACCCGCGGAATCTCAGGGTCCCAGGCTGTGGGCCATCACGACCTCAAACTGGCTCCTAATCTCCAGCTTTCCTGTCATTGAAAGCTTCGGAAGTTTACTGGCTCTGCTCCCGCCTGTTTTCTTTCTGACTCTATCTGGCAGCCCGATGCCACCCAGTACAGGAAGTGACACCAGTACTCTGTAAAGCATCATCATCCTTGGAGAGACTGAGCACTCAGCACCTTCAGCCACGATTTCAGGATCGCTTCCTTGTGAGCCGCTGCCTCCGAAATCTCCTTTGAAGCCCAGACATCTTTCTCCAGCTTCAGACTTGTAGATATAACTCGTTCATCTTCATTTACTTTCCACTTTGCCCCCTGTCCTCTCTGTGTTCCCCAAATCAGAGAATAGCCCGCCATCCCCCAGGTCACCTGTCTGGATTCCTCCCCATTCACCCACCTTGCCAGGTGCAGGTGAGGATGGTGCACCAGACAGGGTAGCTGTCCCCCAAAATGTGCCCTGTGCGGGCAGTGCCCTGTCTCCACGTTTGTTTCCCCAGTGTCTGGCGGGGAGCCAGGTGACATCATAAATACTTGCTGAATGAATGCAGAAATCAGCGGTACTGACTTGTACTATATTGGCTGCCATGATAGGGTTCTCACAGCGTCATCCATGATCGTAAGGGAGAATGACATTCTGCTTGAGGGAGGGAATAGAAAGGGGCAGGGAGGGGACATCTGAGGGCTTCACAGGGCTGCAAAGGGTACAGGGATTGCACCAGGGCAGAACAGGGGAGGGTGTTCAAGGAAGAGTGGCTCTTAGCAGAGGCACTTTGGAAGGTGTGAGGCATAAATGCTTCCTTCTACGTAGGCCAACCTCAAAACTTTCAGTAGGAATGTTGCTATGATCAAGTTGTTCTAACACTTTAGACTTAGTAGTAATTATGAACCTCACATAGAAAAATTTCATCCAGCCATATGCCTGTGGAGTGGAATATTCTGTTTAGTAGAAAAATCCTTTAGAGTTCAGCTCTAACCAGAAATCTTGCTGAAGTATGTCAGCACCTTTTCTCACCCTGGTAAGTACAGTATTTCAAGAGCACGCTAAGGGTGGTTTTCATTTTACAGGGCTGTTGATGATGGGTTAAAAATGTTCATTTAAGGGCTACCCCCGTGTTTAATAGATGAACACCACTTCTACACAACCCTCCTTGGTACTGGGGGAGGGAGAGATCTGACAAATACTGCCCATTCCCCTAGGCTGACTGGATTTGAGAACAAATACCCACCCATTTCCACCATGGTATGGTAACTTCTCTGAGCTTCAGTTTCCAAGTGAATTTCCATGTAATAGGACATTCCCATTAAATACAAGCTGTTTTTACTTTTTCGCCTCCCAGGGCCTGTGGGATCTGGTCCCCCAGCCTCTCTTGGGCTTTCTTACACTAACTCTGTACCTACCATCTCCTGCCTCCCTTAGGCAGGCACCTCCAACCACCACACACTCCCTGCTGTTTTCCCTGCCTGGAACTTTCCCTCCTGCCCCACCAAGATCATTTCATCCAGTCCTGAGCTCAGCTTAAGGGAGGCTTCTTGCCTGTGGGTTCCCTCACCCCCATGCCTGTCCTCCAGGCTGGGGCAGGTTCTTAGTTTGCCTGGAATTGTTCTGTACCTCTTTGTAGCACGTAGTGTTGTGGAAACTAAGCCACTAATTGAGTTTCTGGCTCCCCTCCTGGGGTTGTAAGTTTTGTTCATTCATGAGGGCCGACTGCATTTCCTGGTTACTCTATCCCAGTGACCAGCCACAGGAGATGTCCAATAAAGTATGTGATGAAATGGTCTTAAAAAAAAAAAAAA NM_024101GCGCCGGGACGTGGCCAGTTGCCCGCCTGCCCCGGAGAGCCAGGCGCTAACCAGCCGCTCTGCGCCCCGC138GCCCTGCTTGCCCCCATTATCCAGCCTTGCCCCGGCGCCCTGACCTGACGCCCTGGCCTGACGCCCTGCTTCGTCGCCTCCTTTCTCTCCCAGGTGCTGGACCAGGGACTGAGCGTCCCCCGGAGAGGGTCCGGTGTGACCCCGACAAGAAGCAGAAATGGGGAAGAAACTGGATCTTTCCAAGCTCACTGATGAAGAGGCCCAGCATGTCTTGGAAGTTGTTCAACGAGATTTTGACCTCCGAAGGAAAGAAGAGGAACGGCTAGAGGCGTTGAAGGGCAAGATTAAGAAGGAAAGCTCCAAGAGGGAGCTGCTTTCCGACACTGCCCATCTGAACGAGACCCACTGCGCCCGCTGCCTGCAGCCCTACCAGCTGCTTGTGAATAGCAAAAGGCAGTGCCTGGAATGTGGCCTCTTCACCTGCAAAAGCTGTGGCCGCGTCCACCCGGAGGAGCAGGGCTGGATCTGTGACCCCTGCCATCTGGCCAGAGTCGTGAAGATCGGCTCACTGGAGTGGTACTATGAGCATGTGAAAGCCCGCTTCAAGAGGTTCGGAAGTGCCAAGGTCATCCGGTCCCTCCACGGGCGGCTGCAGGGTGGAGCTGGGCCTGAACTGATATCTGAAGAGAGAAGTGGAGACAGCGACCAGACAGATGAGGATGGAGAACCTGGCTCAGAGGCCCAGGCCCAGGCCCAGCCCTTTGGCAGCAAAAAAAAGCGCCTCCTCTCCGTCCACGACTTCGACTTCGAGGGAGACTCAGATGACTCCACTCAGCCTCAAGGTCACTCCCTGCACCTGTCCTCAGTCCCTGAGGCCAGGGACAGCCCACAGTCCCTCACAGATGAGTCCTGCTCAGAGAAGGCAGCCCCTCACAAGGCTGAGGGCCTGGAGGAGGCTGATACTGGGGCCTCTGGGTGCCACTCCCATCCGGAAGAGCAGCCGACCAGCATCTCACCTTCCAGACACGGCGCCCTGGCTGAGCTCTGCCCGCCTGGAGGCTCCCACAGGATGGCCCTGGGGACTGCTGCTGCACTCGGGTCGAATGTCATCAGGAATGAGCAGCTGCCCCTGCAGTACTTGGCCGATGTGGACACCTCTGATGAGGAAAGCATCCGGGCTCACGTGATGGCCTCCCACCATTCCAAGCGGAGAGGCCGGGCGTCTTCTGAGAGTCAGATCTTTGAGCTGAATAAGCATATTTCAGCTGTGGAATGCCTGCTGACCTACCTGGAGAACACAGTTGTGCCTCCCTTGGCCAAGGGTCTAGGTGCTGGAGTGCGCACGGAGGCCGATGTAGAGGAGGAGGCCCTGAGGAGGAAGCTGGAGGAGCTGACCAGCAACGTCAGTGACCAGGAGACCTCGTCCGAGGAGGAGGAAGCCAAGGACGAAAAGGCAGAGCCCAACAGGGACAAATCAGTTGGGCCTCTCCCCCAGGCGGACCCGGAGGTGGGCACGGCTGCCCATCAAACCAACAGACAGGAAAAAAGCCCCCAGGACCCTGGGGACCCCGTCCAGTACAACAGGACCACAGATGAGGAGCTGTCAGAGCTGGAGGACAGAGTGGCAGTGACGGCCTCAGAAGTCCAGCAGGCAGAGAGCGAGGTTTCAGACATTGAATCCAGGATTGCAGCCCTGAGGGCCGCAGGGCTCACGGTGAAGCCCTCGGGAAAGCCCCGGAGGAAGTCAAACCTCCCGATATTTCTCCCTCGAGTGGCTGGGAAACTTGGCAAGAGACCAGAGGACCCAAATGCAGACCCTTCAAGTGAGGCCAAGGCAATGGCTGTGCCCTATCTTCTGAGAAGAAAGTTCAGTAATTCCCTGAAAAGTCAAGGTAAAGATGATGATTCTTTTGATCGGAAATCAGTGTACCGAGGCTCGCTGACACAGAGAAACCCCAACGCGAGGAAAGGAATGGCCAGCCACACCTTCGCGAAACCTGTGGTGGCCCACCAGTCCTAACGGGACAGGACAGAGAGACAGAGCAGCCCTGCACTGTTTTCCCTCCACCACAGCCATCCTGTCCCTCATTGGCTCTGTGCTTTCCACTATACACAGTCACCGTCCCAATGAGAAACAAGAAGGAGCACCCTCCACATGGACTCCCACCTGCAAGTGGACAGCGACATTCAGTCCTGCACTGCTCACCTGGGTTTACTGATGACTCCTGGCTGCCCCACCATCCTCTCTGATCTGTGAGAAACAGCTAAGCTGCTGTGACTTCCCTTTAGGACAATGTTGTGTAAATCTTTGAAGGACACACCGAAGACCTTTATACTGTGATCTTTTACCCCTTTCACTCTTGGCTTTCTTATGTTGCTTTCATGAATGGAATGGAAAAAAGATGACTCAGTTAAGGCACCAGCCATATGTGTATTCTTGATGGTCTATATCGGGGTGTGAGCAGATGTTTGCGTATTTCTTGTGGGTGTGACTGGATATTAGACATCCGGACAAGTGACTGAACTAATGATCTGCTGAATAATGAAGGAGGAATAGACACCCCAGTCCCCACCCTACGTGCACCCGCTCTGCAAGTTCCCATGTGATCTGTAGACCAGGGGAAATTACACTGCGGTCAAGGGCAGAGCCTGCACATGACAGCAAGTGAGCATTTGATAGATGCTCAGATGCTAGTGCAGAGAGCCTGCTGGGAGACGAAGAGACAGCAGGCAGAGCTCCAGATGGGCAAGGAAGAGGCTTGGTTCTAGCCTGGCTCTGCCCCTCACTGCAGTGGATCCAGTGGGGCAGAGGACAGAGGGTCACAACCAATGAGGGATGTCTGCCAAGGATGGGGGTGCAGAGGCCACAGGAGTCAGCTTGCCACTCGCCCATTGGTTACATAGATGATCTCTCAGACAGGCTGGGACTCAGAGTTATTTCCTAGTATCGGTGTGCCCCATCCAGTTTTAAGTGGAGCCCTCCAAGACTCTCCAGAGCTGCCTTTGAACATCCTAACAGTAATCACATCTCACCCTCCCTGAGGTTCACTTTAGACAGGACCCAATGGCTGCACTGCCTTTGTCAGAGGGGGTGCTGAGAGGAGTGGCTTCTTTTAGAATCAAACAGTAGAGACAAGAGTCAAGCCTTGTGTCTTCAAGCATTGACCAAGTTAAGTGTTTCCTTCCCTCTCTCAATAAGACACTTCCAGGAGCTTTCCAATCTCTCACTTAAAACTAAGGTTTGAATCTCAAAGTGTTGCTGGGAGGCTGATACTCCTGCAACTTCAGGAGACCTGTGAGCACACATTAGCAGCTGTTTCTCTGACTCCTTGTGGCATCAGATAAAAACGTGGGAGTTTTTCCATATAATTCCCAGCCTTACTTATAAATTCTATTCTTTGAAAAAATTATTCAGGCTAGGTAAGGTGGCTCATACCTATAATCCCAGCCCTTTGAGAGGCCAAGGTGGGAGAATTGCTTGAGGCCAGGAGTTTGAGACCTCCTGGGCAACATAGTGAGATCCCATCTCTACAAAAAACAAAACAAAAAAATTACCCAAGCATGATGGTATATGCCTGTAGTCGTACCTACTTACTTAGGAGGCTGAGGCAGGAGGATCACTTGAGCCCTGGAGGTTGGGGCTGCAGTGAGCCATGATCGCATCACTATACTCGAGCCTGGGCAACAGAGTGAGACCTTGTCTCTTAAAAAAATTAATAATAAATAAATGAAAATAATTCTTCAGAAAAAAAAAAAAAAAA NM_005940AAGCCCAGCAGCCCCGGGGCGGATGGCTCCGGCCGCCTGGCTCCGCAGCGCGGCCGCGCGCGCCCTCCTG139CCCCCGATGCTGCTGCTGCTGCTCCAGCCGCCGCCGCTGCTGGCCCGGGCTCTGCCGCCGGACGCCCACCACCTCCATGCCGAGAGGAGGGGGCCACAGCCCTGGCATGCAGCCCTGCCCAGTAGCCCGGCACCTGCCCCTGCCACGCAGGAAGCCCCCCGGCCTGCCAGCAGCCTCAGGCCTCCCCGCTGTGGCGTGCCCGACCCATCTGATGGGCTGAGTGCCCGCAACCGACAGAAGAGGTTCGTGCTTTCTGGCGGGCGCTGGGAGAAGACGGACCTCACCTACAGGATCCTTCGGTTCCCATGGCAGTTGGTGCAGGAGCAGGTGCGGCAGACGATGGCAGAGGCCCTAAAGGTATGGAGCGATGTGACGCCACTCACCTTTACTGAGGTGCACGAGGGCCGTGCTGACATCATGATCGACTTCGCCAGGTACTGGCATGGGGACGACCTGCCGTTTGATGGGCCTGGGGGCATCCTGGCCCATGCCTTCTTCCCCAAGACTCACCGAGAAGGGGATGTCCACTTCGACTATGATGAGACCTGGACTATCGGGGATGACCAGGGCACAGACCTGCTGCAGGTGGCAGCCCATGAATTTGGCCACGTGCTGGGGCTGCAGCACACAACAGCAGCCAAGGCCCTGATGTCCGCCTTCTACACCTTTCGCTACCCACTGAGTCTCAGCCCAGATGACTGCAGGGGCGTTCAACACCTATATGGCCAGCCCTGGCCCACTGTCACCTCCAGGACCCCAGCCCTGGGCCCCCAGGCTGGGATAGACACCAATGAGATTGCACCGCTGGAGCCAGACGCCCCGCCAGATGCCTGTGAGGCCTCCTTTGACGCGGTCTCCACCATCCGAGGCGAGCTCTTTTTCTTCAAAGCGGGCTTTGTGTGGCGCCTCCGTGGGGGCCAGCTGCAGCCCGGCTACCCAGCATTGGCCTCTCGCCACTGGCAGGGACTGCCCAGCCCTGTGGACGCTGCCTTCGAGGATGCCCAGGGCCACATTTGGTTCTTCCAAGGTGCTCAGTACTGGGTGTACGACGGTGAAAAGCCAGTCCTGGGCCCCGCACCCCTCACCGAGCTGGGCCTGGTGAGGTTCCCGGTCCATGCTGCCTTGGTCTGGGGTCCCGAGAAGAACAAGATCTACTTCTTCCGAGGCAGGGACTACTGGCGTTTCCACCCCAGCACCCGGCGTGTAGACAGTCCCGTGCCCCGCAGGGCCACTGACTGGAGAGGGGTGCCCTCTGAGATCGACGCTGCCTTCCAGGATGCTGATGGCTATGCCTACTTCCTGCGCGGCCGCCTCTACTGGAAGTTTGACCCTGTGAAGGTGAAGGCTCTGGAAGGCTTCCCCCGTCTCGTGGGTCCTGACTTCTTTGGCTGTGCCGAGCCTGCCAACACTTTCCTCTGACCATGGCTTGGATGCCCTCAGGGGTGCTGACCCCTGCCAGGCCACGAATATCAGGCTAGAGACCCATGGCCATCTTTGTGGCTGTGGGCACCAGGCATGGGACTGAGCCCATGTCTCCTCAGGGGGATGGGGTGGGGTACAACCACCATGACAACTGCCGGGAGGGCCACGCAGGTCGTGGTCACCTGCCAGCGACTGTCTCAGACTGGGCAGGGAGGCTTTGGCATGACTTAAGAGGAAGGGCAGTCTTGGGCCCGCTATGCAGGTCCTGGCAAACCTGGCTGCCCTGTCTCCATCCCTGTCCCTCAGGGTAGCACCATGGCAGGACTGGGGGAACTGGAGTGTCCTTGCTGTATCCCTGTTGTGAGGTTCCTTCCAGGGGCTGGCACTGAAGCAAGGGTGCTGGGGCCCCATGGCCTTCAGCCCTGGCTGAGCAACTGGGCTGTAGGGCAGGGCCACTTCCTGAGGTCAGGTCTTGGTAGGTGCCTGCATCTGTCTGCCTTCTGGCTGACAATCCTGGAAATCTGTTCTCCAGAATCCAGGCCAAAAAGTTCACAGTCAAATGGGGAGGGGTATTCTTCATGCAGGAGACCCCAGGCCCTGGAGGCTGCAACATACCTCAATCCTGTCCCAGGCCGGATCCTCCTGAAGCCCTTTTCGCAGCACTGCTATCCTCCAAAGCCATTGTAAATGTGTGTACAGTGTGTATAAACCTTCTTCTTCTTTTTTTTTTTTTAAACTGAGGATTGTCBX647151TAGCAGCACACAAGGGTTCGTGTTTGTGGAACCAGGTAGCTTCCTTCAGAGCTGACATTTGCCCACAGCC140AGCCTGGCCCAGCCCCATACCACCAGCCCTGGCGCTCTGGGGCGTGAGGTGCCTTTTCTGCCCCCCTGCTCTAGGGCAGGTGGAAATCACCCATGGTGGGTCTACATCTGATAGAAGCATCTTATAGTTCTGCTTCTGGACCAGACCATCCTGGGTTTTTCTCTGTTCTGCTGAAGGGTTCCCTCCACGTGTCCATCACCTCGGTGAACTCTTGGGAGACCTGGGAAGATGCTGGCCTCACCTCTCGCCTCTCCTTTCCCTCATTGTGCTGCCACCATCCTTCTCACACAGGCTCTCCAGGGAGAGCTGGGCAGGATGGGATCTTCCTGGGTTCCCACCTTGCTCCGTGCCCCCTCTCACTGTTCCTGAAGTGTGGCCACGGACTGCCTTGTTTTCTGGAAAGTCCCAAGTCTGGACCATGACTGAGCAGCATTCTCGGCTATCTGCCACCTGTCTGGGGCTCCTGGCCCCTCTTAGACTCCCCTCTCCCTTCTGTTTCCCCCGAGCCCCTGACTTGGACCTGCAGGGTGGGGAGAGGGATGGGACGAGAACCTGTGCTGGGGCCAAAGGTCGCACTGGGGGAAGGTGGAGCCAGGGCAGCAGAGTGCCTGGCGTCGGCCCCTATCCTGTCACTAGTTCCCCCGTTCTGGCCCCTGGCAGGTTTGTAACCCCAGATCAGAAGTACTCCATGGACAACACTCCCCACACGCCAACCCCGTTCAAGAACGCCCTGGAGAAGTACGGACCCCTGAAGCCCCTGGTACGTGGTGTGGTCACTGCCGTGGATCTCTGCACAGTGGGATCCCTTCGGTTCATCCAACCATGTTCAGTCCACAGGACCCTTCCCTCTGAGGTCTCATTTGATTCTTTCTCCTGAGAAGATGCAGAGATCCTGATAATATAAATGGGGAAGCTGAGGCTGCTCTTTGTCACTTCCTCCGACTGCTCCTGAGCACCTGAGTTTGCAAGCACGCGCCGGCTGGTGCTAGAGACATGGTGGTATCCCGTGACACTCAGCCTCAGGATGGGGGAGACTGATGTGAAATACAAATAACTTAAACACTTTCAGGCAAAGATAAGCACTGGGCCTAGTTCAGAGAAGTGGCAAATTGCTACTCTGGCCTGTCTCTGACCAACTCCCAGTTCTCTACAGAGCACGGGAAAGCCCCTCGGGGACGTCTTTCCTGCAGTGTGCAGGCTGCCCTTCTCCCCTGCTCTTCCCAGTTGATGGGATGGTTGTGTTTTCTCTATGAAAAAAGGAGTTGGCACCTTGGGCTTTCTGAAACACACAGGTGTTTTAGAAATCAGTGGAGGGTGAGAGAAAGGCATGGTTGTGGAGGCACTGGACTGTGAACAAGGTCTGCAGCGGGTCCCCCTGCTGTCTCTCTCTACTGCATGGAGCCTCCTATGAAGCCCAAGGTGGCTGGGGGCTGAGGCTCCCTTGGGCCTGCCATGGAACTGATTCTGAGTCAAGCAGACTTTCCACGGACCATGCTACATGAGCCGAGGTGAGGCACTAGTTAGTGCTCCTTTCCTGTTGCAGTGGAGATTTGGCTCCTCTGTACTAAAATATCTGCATGCTCTCCAAACAGGTGTGAGGGCAAATCACATGACCTTGGCAGCTGTAATTAAAGTTTGTGGGGGCTTTTCGGATGACTTATGAGGAGTGGCTGTGATTCGCACCTTTCACTCTTAGTAGCACTCGCCCTCCCCTGTTCTCTGTTGCCTGAAGCTGGAGAGGTCCTTGGAACCCCGAGGCCTGAGAAAGGGAAATGGGTTTGAGAGCCCCCATTAGTGTGGAACAAAGGGTTGAGTGAGCCTGGGCTTTGAGCTGTCGGGGTCCTAATTCAGCAGCTGTGTGACTGTGTGCCAGGCTGTTGATCTCTGAGCTTCTGTTTCTACCTGCTTAAAATGACGGTTACTGCACAGGGCTGTGTGAGGGTTACAGTGCGTCTCTGGGCTGCTCCCAGCCATGGCAGGCCCCTGGGAATCAAGGTCATCAGCTGCTTGTCCAAGGCAGCAGTTAGTGGTTGTGAATGGTGCGTGTGAGATCTGCATCCTGGCGTCAGGCCTCCTTCCTGCCTTACCCAGGACAGCCCAGTTGCAGCTGGGTTGGTCCCACAGTCCCACACACACACAGCCCGAGTGTGGTGCCTCACGTGGGCTGCCCCGTGCCTACCCACAGCCACAGACCCCGCACCTGGAGGAGGACTTGAAGGAGGTGCTGCGTTCTGAGGCTGGCATCGAACTCATCATCGAGGACGACATCAGGCCCGAGAAGCAGAAGAGGAAGCCTGGGCTGCGGCGGAGCCCCATCAAGAAAGTCCGGAAGTCTCTGGCTCTTGACATTGTGGATGAGGATGTGAAGCTGATGATGTCCACACTGCCCAAGTCTCTATCCTTGCCGACAACTGCCCCTTCAAACTCTTCCAGCCTCACCCTGTCAGGTATCAAAGAAGACAACAGCTTGCTCAACCAGGGCTTCTTGCAGGCCAAGCCCGAGAAGGCAGCAGTGGCCCAGAAGCCCCGAAGCCACTTCACGACACCTGCCCCTATGTCCAGTGCCTGGAAGACGGTGGCCTGCGGGGGGACCAGGGACCAGCTTTTCATGCAGGAGAAAGCCCGGCAGCTCCTGGGCCGCCTGAAGCCCAGCCACACATCTCGGACCCTCATCTTGTCCTGAGGTGTTGAGGGTGTCACGAGCCCATTCACATGTTTACAGGGGTTGTGGGGGCAGAGGGGGTCTGTGAATCTGAGAGTCATTCAGGTGACCTCCTGCAGGGAGCCTTCTGCCACCAGCCCCTCCCCAGACTCTCAGGTGGAGGCAACAGGGCCATGTGCTGCCCTGTTGCCGAGCCCAGCTGTGGGCGGCTCCTGGTGCTAACAACAAAGTTCCACTTCCAGGTCTGCCTGGTTCCCCCCCCAAGGCCACAGGGAGCTCCGTCAGCTTCTCCCAAGCCCACGTCAGGCCTGGCCTCATCTCAGACCCTGCTTAGGATGGGGGATGTGGCCAGGGGTGCTCCTGTGCTCACCCTCTCTTGGTGCATTTTTTTGGAAGAATAAAATTGCCTCTCTCTTTGAAAAAAAAAAAAAAAAA NM_002467GACCCCCGAGCTGTGCTGCTCGCGGCCGCCACCGCCGGGCCCCGGCCGTCCCTGGCTCCCCTCCTGCCTC141GAGAAGGGCAGGGCTTCTCAGAGGCTTGGCGGGAAAAAGAACGGAGGGAGGGATCGCGCTGAGTATAAAAGCCGGTTTTCGGGGCTTTATCTAACTCGCTGTAGTAATTCCAGCGAGAGGCAGAGGGAGCGAGCGGGCGGCCGGCTAGGGTGGAAGAGCCGGGCGAGCAGAGCTGCGCTGCGGGCGTCCTGGGAAGGGAGATCCGGAGCGAATAGGGGGCTTCGCCTCTGGCCCAGCCCTCCCGCTGATCCCCCAGCCAGCGGTCCGCAACCCTTGCCGCATCCACGAAACTTTGCCCATAGCAGCGGGCGGGCACTTTGCACTGGAACTTACAACACCCGAGCAAGGACGCGACTCTCCCGACGCGGGGAGGCTATTCTGCCCATTTGGGGACACTTCCCCGCCGCTGCCAGGACCCGCTTCTCTGAAAGGCTCTCCTTGCAGCTGCTTAGACGCTGGATTTTTTTCGGGTAGTGGAAAACCAGCAGCCTCCCGCGACGATGCCCCTCAACGTTAGCTTCACCAACAGGAACTATGACCTCGACTACGACTCGGTGCAGCCGTATTTCTACTGCGACGAGGAGGAGAACTTCTACCAGCAGCAGCAGCAGAGCGAGCTGCAGCCCCCGGCGCCCAGCGAGGATATCTGGAAGAAATTCGAGCTGCTGCCCACCCCGCCCCTGTCCCCTAGCCGCCGCTCCGGGCTCTGCTCGCCCTCCTACGTTGCGGTCACACCCTTCTCCCTTCGGGGAGACAACGACGGCGGTGGCGGGAGCTTCTCCACGGCCGACCAGCTGGAGATGGTGACCGAGCTGCTGGGAGGAGACATGGTGAACCAGAGTTTCATCTGCGACCCGGACGACGAGACCTTCATCAAAAACATCATCATCCAGGACTGTATGTGGAGCGGCTTCTCGGCCGCCGCCAAGCTCGTCTCAGAGAAGCTGGCCTCCTACCAGGCTGCGCGCAAAGACAGCGGCAGCCCGAACCCCGCCCGCGGCCACAGCGTCTGCTCCACCTCCAGCTTGTACCTGCAGGATCTGAGCGCCGCCGCCTCAGAGTGCATCGACCCCTCGGTGGTCTTCCCCTACCCTCTCAACGACAGCAGCTCGCCCAAGTCCTGCGCCTCGCAAGACTCCAGCGCCTTCTCTCCGTCCTCGGATTCTCTGCTCTCCTCGACGGAGTCCTCCCCGCAGGGCAGCCCCGAGCCCCTGGTGCTCCATGAGGAGACACCGCCCACCACCAGCAGCGACTCTGAGGAGGAACAAGAAGATGAGGAAGAAATCGATGTTGTTTCTGTGGAAAAGAGGCAGGCTCCTGGCAAAAGGTCAGAGTCTGGATCACCTTCTGCTGGAGGCCACAGCAAACCTCCTCACAGCCCACTGGTCCTCAAGAGGTGCCACGTCTCCACACATCAGCACAACTACGCAGCGCCTCCCTCCACTCGGAAGGACTATCCTGCTGCCAAGAGGGTCAAGTTGGACAGTGTCAGAGTCCTGAGACAGATCAGCAACAACCGAAAATGCACCAGCCCCAGGTCCTCGGACACCGAGGAGAATGTCAAGAGGCGAACACACAACGTCTTGGAGCGCCAGAGGAGGAACGAGCTAAAACGGAGCTTTTTTGCCCTGCGTGACCAGATCCCGGAGTTGGAAAACAATGAAAAGGCCCCCAAGGTAGTTATCCTTAAAAAAGCCACAGCATACATCCTGTCCGTCCAAGCAGAGGAGCAAAAGCTCATTTCTGAAGAGGACTTGTTGCGGAAACGACGAGAACAGTTGAAACACAAACTTGAACAGCTACGGAACTCTTGTGCGTAAGGAAAAGTAAGGAAAACGATTCCTTCTAACAGAAATGTCCTGAGCAATCACCTATGAACTTGTTTCAAATGCATGATCAAATGCAACCTCACAACCTTGGCTGAGTCTTGAGACTGAAAGATTTAGCCATAATGTAAACTGCCTCAAATTGGACTTTGGGCATAAAAGAACTTTTTTATGCTTACCATCTTTTTTTTTTCTTTAACAGATTTGTATTTAAGAATTGTTTTTAAAAAATTTTAAGATTTACACAATGTTTCTCTGTAAATATTGCCATTAAATGTAAATAACTTTAATAAAACGTTTATAGCAGTTACACAGAATTTCAATCCTAGTATATAGTACCTAGTATTATAGGTACTATAAACCCTAATTTTTTTTATTTAAGTACATTTTGCTTTTTAAAGTTGATTTTTTTCTATTGTTTTTAGAAAAAATAAAATAACTGGCAAATATATCATTGAGCCAAATCTTAAAAAAAAAAAAAAABC013732GTGGGAGGATTGCATTCAGTCTAGTTCCTGGTTGCCGGCTGAAATAACCTGCTCTCCAAAATGTCCACAA142AAGTGACTTAAGTCAGGTTCCCCCAAACCAGACACCAAGACAAGAATCCATGTGTGTGTGACTGAAGGAAGTGCTGGGAGAGCCCCAGCTGCAGCCTGGATGTGAACTGCAACTCCAAAGTGTGTCCAGACTCAAGGCAAGGGCACTAGGCTTTCCAGACCTCCTACTAAGTCATTGATCCAGCACTGCCCTGCCAGGACATAAATCCCTGGCACCTCTTGCTCTCTGCAAAGGAGGGCAAAGCAGCTTCAGGAGCCCTTGGGAGTCCTCCAAAGAGAGTCTAGGGTACAGGTCCGAAAGTAGAAGAACACAGAAGGCAGGCCAGGGGCACTGTGAGATGGTAAAAGAGATCTGAAGGGATCCAGAATTCAAGCCAGGAAGAAGCAGCAATCTGTCTTCTGGATTAAAACTGAAGATCAACCTACTTTCAACTTACTAAGAAAGGGGATCATGGACATTGAAGCATATCTTGAAAGAATTGGCTATAAGAAGTCTAGGAACAAATTGGACTTGGAAACATTAACTGATATTCTTCAACACCAGATCCGAGCTGTTCCCTTTGAGAACCTTAACATCCATTGTGGGGATGCCATGGACTTAGGCTTAGAGGCCATTTTTGATCAAGTTGTGAGAAGAAATCGGGGTGGATGGTGTCTCCAGGTCAATCATCTTCTGTACTGGGCTCTGACCACTATTGGTTTTGAGACCACGATGTTGGGAGGGTATGTTTACAGCACTCCAGCCAAAAAATACAGCACTGGCATGATTCACCTTCTCCTGCAGGTGACCATTGATGGCAGGAACTACATTGTCGATGCTGGGTTTGGACGCTCATACCAGATGTGGCAGCCTCTGGAGTTAATTTCTGGGAAGGATCAGCCTCAGGTGCCTTGTGTCTTCCGTTTGACGGAAGAGAATGGATTCTGGTATCTAGACCAAATCAGAAGGGAACAGTACATTCCAAATGAAGAATTTCTTCATTCTGATCTCCTAGAAGACAGCAAATACCGAAAAATCTACTCCTTTACTCTTAAGCCTCGAACAATTGAAGATTTTGAGTCTATGAATACATACCTGCAGACATCTCCATCATCTGTGTTTACTAGTAAATCATTTTGTTCCTTGCAGACCCCAGATGGGGTTCACTGTTTGGTGGGCTTCACCCTCACCCATAGGAGATTCAATTATAAGGACAATACAGATCTAATAGAGTTCAAGACTCTGAGTGAGGAAGAAATAGAAAAAGTGCTGAAAAATATATTTAATATTTCCTTGCAGAGAAAGCTTGTGCCCAAACATGGTGATAGATTTTTTACTATTTAGAATAAGGAGTAAAACAATCTTGTCTATTTGTCATCCAGCTCACCAGTTATCAACTGACGACCTATCATGTATCTTCTGTACCCTTACCTTATTTTGAAGAAAATCCTAGACATCAAATCATTTCACCTATAAAAATGTCATCATATATAATTAAACAGCTTTTTAAAGAAACATAACCACAAACCTTTTCAAATAATAATAATAATAATAATAATAAATGTCTTTTAAAGATGGCCTGTGGTTATCTTGGAAATTGGTGATTTATGCTAGAAAGCTTTTAATGTTGGTTTATTGTTGAATTCCTAGAAAAGTTTTATGGGTAGATGAGTAAATAAAATATTGTAAAAAAACTTATTGTCTATAAAGTATATTAAAACATTGTTGGCTAATATAAAAAAAAAAAAAA NM_014321GCGCGCGGGTTTCGTTGACCCGCGGCGTTCACGGGAATTGTTCGCTTTAGTGCCGGCGCCATGGGGTCGG143AGCTGATCGGGCGCCTAGCCCCGCGCCTGGGCCTCGCCGAGCCCGACATGCTGAGGAAAGCAGAGGAGTACTTGCGCCTGTCCCGGGTGAAGTGTGTCGGCCTCTCCGCACGCACCACGGAGACCAGCAGTGCAGTCATGTGCCTGGACCTTGCAGCTTCCTGGATGAAGTGCCCCTTGGACAGGGCTTATTTAATTAAACTTTCTGGTTTGAACAAGGAGACATATCAGAGCTGTCTTAAATCTTTTGAGTGTTTACTGGGCCTGAATTCAAATATTGGAATAAGAGACCTAGCTGTACAGTTTAGCTGTATAGAAGCAGTGAACATGGCTTCAAAGATACTAAAAAGCTATGAGTCCAGTCTTCCCCAGACACAGCAAGTGGATCTTGACTTATCCAGGCCACTTTTCACTTCTGCTGCACTGCTTTCAGCATGCAAGATTCTAAAGCTGAAAGTGGATAAAAACAAAATGGTAGCCACATCCGGTGTAAAAAAAGCTATATTTGATCGACTGTGTAAACAACTAGAGAAGATTGGACAGCAGGTCGACAGAGAACCTGGAGATGTAGCTACTCCACCACGGAAGAGAAAGAAGATAGTGGTTGAAGCCCCAGCAAAGGAAATGGAGAAGGTAGAGGAGATGCCACATAAACCACAGAAAGATGAAGATCTGACACAGGATTATGAAGAATGGAAAAGAAAAATTTTGGAAAATGCTGCCAGTGCTCAAAAGGCTACAGCAGAGTGATTTCAGCTTCCAAACTGGTATACATTCCAAACTGATAGTACATTGCCATCTCCAGGAAGACTTGACGGCTTTGGGATTTTGTTTAAACTTTTATAATAAGGATCCTAAGACTGTTGCCTTTAAATAGCAAAGCAGCCTACCTGGAGGCTAAGTCTGGGCAGTGGGCTGGCCCCTGGTGTGAGCATTAGACCAGCCACAGTGCCTGATTGGTATAGCCTTATGTGCTTTCCTACAAAATGGAATTGGAGGCCGGGCGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGTGGGTGGATCACCTGAGGTCAGGAGCTCGAGACCAGCCTGGCCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAATTAGCCAGGTGTGATGGTGCATGCCTGTAATCCCAGCTCCTCAGTAGGCTGAGACAGGAGCATCACTTGAACGTGGGAGGCAGAGGTTGCAGTGAGCCGAGATTGCACCACCGCACTCCAGCCTGGGTGACAGAGCGAGACTTATCTCATAAATAAATAGATAGATACTCCAGCCTGGGTGACAGAGCGAGACTTATAGATAGATAGATAGATAGATGGATAGATAGATAGATAGATAGATAGATAGATAAACGGAATTGGAGCCATTTTGCTTTAAGTGAATGGCAGTCCCTTGTCTTATTCAGAATATAAAATTCAGTCTGAATGGCATCTTACAGATTTTACTTCAATTTTTGTGTACGGTATTTTTTATTTGACTAAATCAATATATTGTACAGCCTAAGTTAATAAATGTTATTTATATATGCAAAAAAAAAAAAAAAAA NM_000926AGTCCACAGCTGTCACTAATCGGGGTAAGCCTTGTTGTATTTGTGCGTGTGGGTGGCATTCTCAATGAGA144ACTAGCTTCACTTGTCATTTGAGTGAAATCTACAACCCGAGGCGGCTAGTGCTCCCGCACTACTGGGATCTGAGATCTTCGGAGATGACTGTCGCCCGCAGTACGGAGCCAGCAGAAGTCCGACCCTTCCTGGGAATGGGCTGTACCGAGAGGTCCGACTAGCCCCAGGGTTTTAGTGAGGGGGCAGTGGAACTCAGCGAGGGACTGAGAGCTTCACAGCATGCACGAGTTTGATGCCAGAGAAAAAGTCGGGAGATAAAGGAGCCGCGTGTCACTAAATTGCCGTCGCAGCCGCAGCCACTCAAGTGCCGGACTTGTGAGTACTCTGCGTCTCCAGTCCTCGGACAGAAGTTGGAGAACTCTCTTGGAGAACTCCCCGAGTTAGGAGACGAGATCTCCTAACAATTACTACTTTTTCTTGCGCTCCCCACTTGCCGCTCGCTGGGACAAACGACAGCCACAGTTCCCCTGACGACAGGATGGAGGCCAAGGGCAGGAGCTGACCAGCGCCGCCCTCCCCCGCCCCCGACCCAGGAGGTGGAGATCCCTCCGGTCCAGCCACATTCAACACCCACTTTCTCCTCCCTCTGCCCCTATATTCCCGAAACCCCCTCCTCCTTCCCTTTTCCCTCCTCCTGGAGACGGGGGAGGAGAAAAGGGGAGTCCAGTCGTCATGACTGAGCTGAAGGCAAAGGGTCCCCGGGCTCCCCACGTGGCGGGCGGCCCGCCCTCCCCCGAGGTCGGATCCCCACTGCTGTGTCGCCCAGCCGCAGGTCCGTTCCCGGGGAGCCAGACCTCGGACACCTTGCCTGAAGTTTCGGCCATACCTATCTCCCTGGACGGGCTACTCTTCCCTCGGCCCTGCCAGGGACAGGACCCCTCCGACGAAAAGACGCAGGACCAGCAGTCGCTGTCGGACGTGGAGGGCGCATATTCCAGAGCTGAAGCTACAAGGGGTGCTGGAGGCAGCAGTTCTAGTCCCCCAGAAAAGGACAGCGGACTGCTGGACAGTGTCTTGGACACTCTGTTGGCGCCCTCAGGTCCCGGGCAGAGCCAACCCAGCCCTCCCGCCTGCGAGGTCACCAGCTCTTGGTGCCTGTTTGGCCCCGAACTTCCCGAAGATCCACCGGCTGCCCCCGCCACCCAGCGGGTGTTGTCCCCGCTCATGAGCCGGTCCGGGTGCAAGGTTGGAGACAGCTCCGGGACGGCAGCTGCCCATAAAGTGCTGCCCCGGGGCCTGTCACCAGCCCGGCAGCTGCTGCTCCCGGCCTCTGAGAGCCCTCACTGGTCCGGGGCCCCAGTGAAGCCGTCTCCGCAGGCCGCTGCGGTGGAGGTTGAGGAGGAGGATGGCTCTGAGTCCGAGGAGTCTGCGGGTCCGCTTCTGAAGGGCAAACCTCGGGCTCTGGGTGGCGCGGCGGCTGGAGGAGGAGCCGCGGCTGTCCCGCCGGGGGCGGCAGCAGGAGGCGTCGCCCTGGTCCCCAAGGAAGATTCCCGCTTCTCAGCGCCCAGGGTCGCCCTGGTGGAGCAGGACGCGCCGATGGCGCCCGGGCGCTCCCCGCTGGCCACCACGGTGATGGATTTCATCCACGTGCCTATCCTGCCTCTCAATCACGCCTTATTGGCAGCCCGCACTCGGCAGCTGCTGGAAGACGAAAGTTACGACGGCGGGGCCGGGGCTGCCAGCGCCTTTGCCCCGCCGCGGAGTTCACCCTGTGCCTCGTCCACCCCGGTCGCTGTAGGCGACTTCCCCGACTGCGCGTACCCGCCCGACGCCGAGCCCAAGGACGACGCGTACCCTCTCTATAGCGACTTCCAGCCGCCCGCTCTAAAGATAAAGGAGGAGGAGGAAGGCGCGGAGGCCTCCGCGCGCTCCCCGCGTTCCTACCTTGTGGCCGGTGCCAACCCCGCAGCCTTCCCGGATTTCCCGTTGGGGCCACCGCCCCCGCTGCCGCCGCGAGCGACCCCATCCAGACCCGGGGAAGCGGCGGTGACGGCCGCACCCGCCAGTGCCTCAGTCTCGTCTGCGTCCTCCTCGGGGTCGACCCTGGAGTGCATCCTGTACAAAGCGGAGGGCGCGCCGCCCCAGCAGGGCCCGTTCGCGCCGCCGCCCTGCAAGGCGCCGGGCGCGAGCGGCTGCCTGCTCCCGCGGGACGGCCTGCCCTCCACCTCCGCCTCTGCCGCCGCCGCCGGGGCGGCCCCCGCGCTCTACCCTGCACTCGGCCTCAACGGGCTCCCGCAGCTCGGCTACCAGGCCGCCGTGCTCAAGGAGGGCCTGCCGCAGGTCTACCCGCCCTATCTCAACTACCTGAGGCCGGATTCAGAAGCCAGCCAGAGCCCACAATACAGCTTCGAGTCATTACCTCAGAAGATTTGTTTAATCTGTGGGGATGAAGCATCAGGCTGTCATTATGGTGTCCTTACCTGTGGGAGCTGTAAGGTCTTCTTTAAGAGGGCAATGGAAGGGCAGCACAACTACTTATGTGCTGGAAGAAATGACTGCATCGTTGATAAAATCCGCAGAAAAAACTGCCCAGCATGTCGCCTTAGAAAGTGCTGTCAGGCTGGCATGGTCCTTGGAGGTCGAAAATTTAAAAAGTTCAATAAAGTCAGAGTTGTGAGAGCACTGGATGCTGTTGCTCTCCCACAGCCAGTGGGCGTTCCAAATGAAAGCCAAGCCCTAAGCCAGAGATTCACTTTTTCACCAGGTCAAGACATACAGTTGATTCCACCACTGATCAACCTGTTAATGAGCATTGAACCAGATGTGATCTATGCAGGACATGACAACACAAAACCTGACACCTCCAGTTCTTTGCTGACAAGTCTTAATCAACTAGGCGAGAGGCAACTTCTTTCAGTAGTCAAGTGGTCTAAATCATTGCCAGGTTTTCGAAACTTACATATTGATGACCAGATAACTCTCATTCAGTATTCTTGGATGAGCTTAATGGTGTTTGGTCTAGGATGGAGATCCTACAAACACGTCAGTGGGCAGATGCTGTATTTTGCACCTGATCTAATACTAAATGAACAGCGGATGAAAGAATCATCATTCTATTCATTATGCCTTACCATGTGGCAGATCCCACAGGAGTTTGTCAAGCTTCAAGTTAGCCAAGAAGAGTTCCTCTGTATGAAAGTATTGTTACTTCTTAATACAATTCCTTTGGAAGGGCTACGAAGTCAAACCCAGTTTGAGGAGATGAGGTCAAGCTACATTAGAGAGCTCATCAAGGCAATTGGTTTGAGGCAAAAAGGAGTTGTGTCGAGCTCACAGCGTTTCTATCAACTTACAAAACTTCTTGATAACTTGCATGATCTTGTCAAACAACTTCATCTGTACTGCTTGAATACATTTATCCAGTCCCGGGCACTGAGTGTTGAATTTCCAGAAATGATGTCTGAAGTTATTGCTGCACAATTACCCAAGATATTGGCAGGGATGGTGAAACCCCTTCTCTTTCATAAAAAGTGAATGTCATCTTTTTCTTTTAAAGAATTAAATTTTGTGGTATGTCTTTTTGTTTTGGTCAGGATTATGAGGTCTTGAGTTTTTATAATGTTCTTCTGAAAGCCTTACATTTATAACATCATAGTGTGTAAATTTAAAAGAAAAATTGTGAGGTTCTAATTATTTTCTTTTATAAAGTATAATTAGAATGTTTAACTGTTTTGTTTACCCATATTTTCTTGAAGAATTTACAAGATTGAAAAAGTACTAAAATTGTTAAAGTAAACTATCTTATCCATATTATTTCATACCATGTAGGTGAGGATTTTTAACTTTTGCATCTAACAAATCATCGACTTAAGAGAAAAAATCTTACATGTAATAACACAAAGCTATTATATGTTATTTCTAGGTAACTCCCTTTGTGTCAATTATATTTCCAAAAATGAACCTTTAAAATGGTATGCAAAATTTTGTCTATATATATTTGTGTGAGGAGGAAATTCATAACTTTCCTCAGATTTTCAAAAGTATTTTTAATGCAAAAAATGTAGAAAGAGTTTAAAACCACTAAAATAGATTGATGTTCTTCAAACTAGGCAAAACAACTCATATGTTAAGACCATTTTCCAGATTGGAAACACAAATCTCTTAGGAAGTTAATAAGTAGATTCATATCATTATGCAAATAGTATTGTGGGTTTTGTAGGTTTTTAAAATAACCTTTTTTGGGGAGAGAATTGTCCTCTAATGAGGTATTGCGAGTGGACATAAGAAATCAGAAGATTATGGCCTAACTGTACTCCTTACCAACTGTGGCATGCTGAAAGTTAGTCACTCTTACTGATTCTCAATTCTCTCACCTTTGAAAGTAGTAAAATATCTTTCCTGCCAATTGCTCCTTTGGGTCAGAGCTTATTAACATCTTTTCAAATCAAAGGAAAGAAGAAAGGGAGAGGAGGAGGAGGGAGGTATCAATTCACATACCTTTCTCCTCTTTATCCTCCACTATCATGAATTCATATTATGTTTCAGCCATGCAAATCTTTTTACCATGAAATTTCTTCCAGAATTTTCCCCCTTTGACACAAATTCCATGCATGTTTCAACCTTCGAGACTCAGCCAAATGTCATTTCTGTAAAATCTTCCCTGAGTCTTCCAAGCAGTAATTTGCCTTCTCCTAGAGTTTACCTGCCATTTTGTGCACATTTGAGTTACAGTAGCATGTTATTTTACAATTGTGACTCTCCTGGGAGTCTGGGAGCCATATAAAGTGGTCAATAGTGTTTGCTGACTGAGAGTTGAATGACATTTTCTCTCTGTCTTGGTATTACTGTAGATTTCGATCATTCTTTGGTTACATTTCTGCATATTTCTGTACCCATGACTTTATCACTTTCTTCTCCCATGCTTTATCTCCATCAATTATCTTCATTACTTTTAAATTTTCCACCTTTGCTTCCTACTTTGTGAGATCTCTCCCTTTACTGACTATAACATAGAAGAATAGAAGTGTATTTTATGTGTCTTAAGGACAATACTTTAGATTCCTTGTTCTAAGTTTTTAAACTGAATGAATGGAATATTATTTCTCTCCCTAAGCAAAATTCCACAAAACAATTATTTCTTATGTTTATGTAGCCTTAAATTGTTTTGTACTGTAAACCTCAGCATAAAAACTTTCTTCATTTCTAATTTCATTCAACAAATATTGATTGAATACCTGGTATTAGCACAAGAAAAATGTGCTAATAAGCCTTATGAGAATTTGGAGCTGAAGAAAGACATATAACTCAGGAAAGTTACAGTCCAGTAGTAGGTATAAATTACAGTGCCTGATAAATAGGCATTTTAATATTTGTACACTCAACGTATACTAGGTAGGTGCAAAACATTTACATATAATTTTACTGATACCCATGCAGCACAAAGGTACTAACTTTAAATATTAAATAACACCTTTATGTGTCAGTAATTCATTTGCATTAAATCTTATTGAAAAGGCTTTCAATATATTTTCCCCACAAATGTCATCCCAAGAAAAAAGTATTTTTAACATCTCCCAAATATAATAGTTACAGGAAATCTACCTCTGTGAGAGTGACACCTCTCAGAATGAACTGTGTGACACAAGAAAATGAATGTAGGTCTATCCAAAAAAAACCCCAAGAAACAAAAACAATATTATTAGCCCTTTATGCTTAAGTGATGGACTCAGGGAACAGTTGATGTTGTGATCATTTTATTATCTGATTCTTGTTACTTTGAATTAAACCAATATTTTGATGATATAAATCATTTCCACCAGCATATATTTAATTTCCATAATAACTTTAAAATTTTCTAATTTCACTCAACTATGAGGGAATAGAATGTGGTGGCCACAGGTTTGGCTTTTGTTAAAATGTTTGATATCTTCGATGTTGATCTCTGTCTGCAATGTAGATGTCTAAACACTAGGATTTAATATTTAAGGCTAAGCTTTAAAAATAAAGTACCTTTTTAAAAAGAATATGGCTTCACCAAATGGAAAATACCTAATTTCTAAATCTTTTTCTCTACAAAGTCCTATCTACTAATGTCTCCATTACTATTTAGTCATCATAACCATTATCTTCATTTTACATGTCGTGTTCTTTCTGGTAGCTCTAAAATGACACTAAATCATAAGAAGACAGGTTACATATCAGGAAATACTTGAAGGTTACTGAAATAGATTCTTGAGTTAATGAAAATATTTTCTGTAAAAAGGTTTGAAAAGCCATTTGAGTCTAAAGCATTATACCTCCATTATCAGTAGTTATGTGACAATTGTGTGTGTGTTTAATGTTTAAAGATGTGGCACTTTTTAATAAGGCAATGCTATGCTATTTTTTCCCATTTAACATTAAGATAATTTATTGCTATACAGATGATATGGAAATATGATGAACAATATTTTTTTTGCCAAAACTATGCCTTGTAAGTAGCCATGGAATGTCAACCTGTAACTTAAATTATCCACAGATAGTCATGTGTTTGATGATGGGCACTGTGGAGATAACTGACATAGGACTGTGCCCCCCTTCTCTGCCACTTACTAGCTGGATGAGATTAAGCAAGTCATTTAACTGCTCTGATTAAACCTGCCTTTCCCAAGTGCTTTGTAATGAATAGAAATGGAAACCAAAAAAAACGTATACAGGCCTTCAGAAATAGTAATTGCTACTATTTTGTTTTCATTAAGCCATAGTTCTGGCTATAATTTTATCAAACTCACCAGCTATATTCTACAGTGAAAGCAGGATTCTAGAAAGTCTCACTGTTTTATTTATGTCACCATGTGCTATGATATATTTGGTTGAATTCATTTGAAATTAGGGCTGGAAGTATTCAAGTAATTTCTTCTGCTGAAAAAATACAGTGTTTTGAGTTTAGGGCCTGTTTTATCAAAGTTCTAAAGAGCCTATCACTCTTCCATTGTAGACATTTTAAAATAATGACACTGATTTTAACATTTTTAAGTGTCTTTTTAGAACAGAGAGCCTGACTAGAACACAGCCCCTCCAAAAACCCATGCTCAAATTATTTTTACTATGGCAGCAATTCCACAAAAGGGAACAATGGGTTTAGAAATTACAATGAAGTCATCAACCCAAAAAACATCCCTATCCCTAAGAAGGTTATGATATAAAATGCCCACAAGAAATCTATGTCTGCTTTAATCTGTCTTTTATTGCTTTGGAAGGATGGCTATTACATTTTTAGTTTTTGCTGTGAATACCTGAGCAGTTTCTCTCATCCATACTTATCCTTCACACATCAGAAGTCAGGATAGAATATGAATCATTTTAAAAACTTTTACAACTCCAGAGCCATGTGCATAAGAAGCATTCAAAACTTGCCAAAACATACATTTTTTTTCAAATTTAAAGATACTCTATTTTTGTATTCAATAGCTCAACAACTGTGGTCCCCACTGATAAAGTGAAGTGGACAAGGAGACAAGTAATGGCATAAGTTTGTTTTTCCCAAAGTATGCCTGTTCAATAGCCATTGGATGTGGGAAATTTCTACATCTCTTAAAATTTTACAGAAAATACATAGCCAGATAGTCTAGCAAAAGTTCACCAAGTCCTAAATTGCTTATCCTTACTTCACTAAGTCATGAAATCATTTTAATGAAAAGAACATCACCTAGGTTTTGTGGTTTCTTTTTTTCTTATTCATGGCTGAGTGAAAACAACAATCTCTGTTTCTCCCTAGCATCTGTGGACTATTTAATGTACCATTATTCCACACTCTATGGTCCTTACTAAATACAAAATTGAACAAAAAGCAGTAAAACAACTGACTCTTCACCCATATTATAAAATATAATCCAAGCCAGATTAGTCAACATCCATAAGATGAATCCAAGCTGAACTGGGCCTAGATTATTGAGTTCAGGTTGGATCACATCCCTATTTATTAATAAACTTAGGAAAGAAGGCCTTACAGACCATCAGTTAGCTGGAGCTAATAGAACCTACACTTCTAAAGTTCGGCCTAGAATCAATGTGGCCTTAAAAGCTGAAAAGAAGCAGGAAAGAACAGTTTTCTTCAATAATTTGTCCACCCTGTCACTGGAGAAAATTTAAGAATTTGGGGGTGTTGGTAGTAAGTTAAACACAGCAGCTGTTCATGGCAGAAATTATTCAATACATACCTTCTCTGAATATCCTATAACCAAAGCAAAGAAAAACACCAAGGGGTTTGTTCTCCTCCTTGGAGTTGACCTCATTCCAAGGCAGAGCTCAGGTCACAGGCACAGGGGCTGCGCCCAAGCTTGTCCGCAGCCTTATGCAGCTGTGGAGTCTGGAAGACTGTTGCAGGACTGCTGGCCTAGTCCCAGAATGTCAGCCTCATTTTCGATTTACTGGCTCTTGTTGCTGTATGTCATGCTGACCTTATTGTTAAACACAGGTTTGTTTGCTTTTTTTCCACTCATGGAGACATGGGAGAGGCATTATTTTTAAGCTGGTTGAAAGCTTTAACCGATAAAGCATTTTTAGAGAAATGTGAATCAGGCAGCTAAGAAAGCATACTCTGTCCATTACGGTAAAGAAAATGCACAGATTATTAACTCTGCAGTGTGGCATTAGTGTCCTGGTCAATATTCGGATAGATATGAATAAAATATTTAAATGGTATTGTAAATAGTTTTCAGGACATATGCTATAGCTTATTTTTATTATCTTTTGAAATTGCTCTTAATACATCAAATCCTGATGTATTCAATTTATCAGATATAAATTATTCTAAATGAAGCCCAGTTAAATGTTTTTGTCTTGTCAGTTATATGTTAAGTTTCTGATCTCTTTGTCTATGACGTTTACTAATCTGCATTTTTACTGTTATGAATTATTTTAGACAGCAGTGGTTTCAAGCTTTTTGCCACTAAAAATACCTTTTATTTTCTCCTCCCCCAGAAAAGTCTATACCTTGAAGTATCTATCCACCAAACTGTACTTCTATTAAGAAATAGTTATTGTGTTTTCTTAATGTTTTGTTATTCAAAGACATATCAATGAAAGCTGCTGAGCAGCATGAATAACAATTATATCCACACAGATTTGATATATTTTGTGCAGCCTTAACTTGATAGTATAAAATGTCATTGCTTTTTAAATAATAGTTAGTCAATGGACTTCTATCATAGCTTTCCTAAACTAGGTTAAGATCCAGAGCTTTGGGGTCATAATATATTACATACAATTAAGTTATCTTTTTCTAAGGGCTTTAAAATTCATGAGAATAACCAAAAAAGGTATGTGGAGAGTTAATACAAACATACCATATTCTTGTTGAAACAGAGATGTGGCTCTGCTTGTTCTCCATAAGGTAGAAATACTTTCCAGAATTTGCCTAAACTAGTAAGCCCTGAATTTGCTATGATTAGGGATAGGAAGAGATTTTCACATGGCAGACTTTAGAATTCTTCACTTTAGCCAGTAAAGTATCTCCTTTTGATCTTAGTATTCTGTGTATTTTAACTTTTCTGAGTTGTGCATGTTTATAAGAAAAATCAGCACAAAGGGTTTAAGTTAAAGCCTTTTTACTGAAATTTGAAAGAAACAGAAGAAAATATCAAAGTTCTTTGTATTTTGAGAGGATTAAATATGATTTACAAAAGTTACATGGAGGGCTCTCTAAAACATTAAATTAATTATTTTTTGTTGAAAAGTCTTACTTTAGGCATCATTTTATTCCTCAGCAACTAGCTGTGAAGCCTTTACTGTGCTGTATGCCAGTCACTCTGCTAGATTGTGGAGATTACCAGTGTTCCCGTCTTCTCCGAGCTTAGAGTTGGATGGGGAATAAAGACAGGTAAACAGATAGCTACAATATTGTACTGTGAATGCTTATGCTGGAGGAAGTACAGGGAACTATTGGAGCACCTAAGAGGAGCACCTACCTTGAATTTAGGGGTTAGCAGAGGCATCCTGAAAAAAGTCAAAGCTAAGCCACAATCTATAAGCAGTTTAGGAATTAGCAGAACGTGCGTGGTGAGGAGATGCCAAAGGCAAGAAGAGAAGAGTATTCCAAACAGGAGGGATTCCAAAGAGAGAAGAGTATCCCAAACAACATTTGCACAAACCTGATGGGGAGAGAGAATGTGGGGTGGGGATGGATGATGAGACTGAAGAAGAAAGCCAGGTCTAGATAATCAGTGGCCTTGTACACCATGTTAAAGAGTGTAGACTTGATTCTGTTGTAAACAGGAAAGCAGCACAATTCATATGAATATTTTAGAAGACTCCCACTGGAATATGGAGAATAAAGTTGGAGATGACTAATCCTGGAAGCAGGGAGAACATTTTTGAGGAAGTTGCACTATTTTGGTGAAAATGATGATCATAAACATGAAGAATTGTAGGTGATCATGACCTCCTCTCTAATTTTCCAGAAGGGTTTTGGAAGATATAACATAGGAACATTGACAGGACTGACGAAAGGAGATGAAATACACCATATAAATTGTCAAACACAAGGCCAGATGTCTAATTATTTTGCTTATGTGTTGAAATTACAAATTTTTCATCAGGAAACCAAAAACTACAAAACTTAGTTTTCCCAAGTCCCAGAATTCTATCTGTCCAAACAATCTGTACCACTCCACCTATATCCCTACCTTTGCATGTCTGTCCAACCTCAAAGTCCAGGTCTATACACACGGGTAAGACTAGAGCAGTTCAAGTTTCAGAAAATGAGAAAGAGGAACTGAGTTGTGCTGAACCCATACAAAATAAACACATTCTTTGTATAGATTCTTGGAACCTCGAGAGGAATTCACCTAACTCATAGGTATTTGATGGTATGAATCCATGGCTGGGCTCGGCTTTTAAAAAGCCTTATCTGGGATTCCTTCTATGGAACCAAGTTCCATCAAAGCCCATTTAAAAGCCTACATTAAAAACAAAATTCTTGCTGCATTGTATACAAATAATGATGTCATGATCAAATAATCAGATGCCATTATCAAGTGGAATTACAAAATGGTATACCCACTCCAAAAAAAAAAAAAAAGCTAAATTCTCAGTAGAACATTGTGACTTCATGAGCCCTCCACAGCCTTGGAGCTGAGGAGGGAGCACTGGTGAGCAGTAGGTTGAAGAGAAAACTTGGCGCTTAATAATCTATCCATGTTTTTTCATCTAAAAGAGCCTTCTTTTTGGATTACCTTATTCAATTTCCATCAAGGAAATTGTTAGTTCCACTAACCAGACAGCAGCTGGGAAGGCAGAAGCTTACTGTATGTACATGGTAGCTGTGGGAAGGAGGTTTCTTTCTCCAGGTCCTCACTGGCCATACACCAGTCCCTTGTTAGTTATGCCTGGTCATAGACCCCCGTTGCTATCATCTCATATTTAAGTCTTTGGCTTGTGAATTTATCTATTCTTTCAGCTTCAGCACTGCAGAGTGCTGGGACTTTGCTAACTTCCATTTCTTGCTGGCTTAGCACATTCCTCATAGGCCCAGCTCTTTTCTCATCTGGCCCTGCTGTGGAGTCACCTTGCCCCTTCAGGAGAGCCATGGCTTACCACTGCCTGCTAAGCCTCCACTCAGCTGCCACCACACTAAATCCAAGCTTCTCTAAGATGTTGCAGACTTTACAGGCAAGCATAAAAGGCTTGATCTTCCTGGACTTCCCTTTACTTGTCTGAATCTCACCTCCTTCAACTTTCAGTCTCAGAATGTAGGCATTTGTCCTCTTTGCCCTACATCTTCCTTCTTCTGAATCATGAAAGCCTCTCACTTCCTCTTGCTATGTGCTGGAGGCTTCTGTCAGGTTTTAGAATGAGTTCTCATCTAGTCCTAGTAGCTTTTGATGCTTAAGTCCACCTTTTAAGGATACCTTTGAGATTTAGACCATGTTTTTCGCTTGAGAAAGCCCTAATCTCCAGACTTGCCTTTCTGTGGATTTCAAAGACCAACTGAGGAAGTCAAAAGCTGAATGTTGACTTTCTTTGAACATTTCCGCTATAACAATTCCAATTCTCCTCAGAGCAATATGCCTGCCTCCAACTGACCAGGAGAAAGGTCCAGTGCCAAAGAGAAAAACACAAAGATTAATTATTTCAGTTGAGCACATACTTTCAAAGTGGTTTGGGTATTCATATGAGGTTTTCTGTCAAGAGGGTGAGACTCTTCATCTATCCATGTGTGCCTGACAGTTCTCCTGGCACTGGCTGGTAACAGATGCAAAACTGTAAAAATTAAGTGATCATGTATTTTAACGATATCATCACATACTTATTTTCTATGTAATGTTTTAAATTTCCCCTAACATACTTTGACTGTTTTGCACATGGTAGATATTCACATTTTTTTGTGTTGAAGTTGATGCAATCTTCAAAGTTATCTACCCCGTTGCTTATTAGTAAAACTAGTGTTAATACTTGGCAAGAGATGCAGGGAATCTTTCTCATGACTCACGCCCTATTTAGTTATTAATGCTACTACCCTATTTTGAGTAAGTAGTAGGTCCCTAAGTACATTGTCCAGAGTTATACTTTTAAAGATATTTAGCCCCATATACTTCTTGAATCTAAAGTCATACACCTTGCTCCTCATTTCTGAGTGGGAAAGACATTTGAGAGTATGTTGACAATTGTTCTGAAGGTTTTTGCCAAGAAGGTGAAACTGTCCTTTCATCTGTGTATGCCTGGGGCTGGGTCCCTGGCAGTGATGGGGTGACAATGCAAAGCTGTAAAAACTAGGTGCTAGTGGGCACCTAATATCATCATCATATACTTATTTTCAAGCTAATATGCAAAATCCCATCTCTGTTTTTAAACTAAGTGTAGATTTCAGAGAAAATATTTTGTGGTTCACATAAGAAAACAGTCTACTCAGCTTGACAAGTGTTTTATGTTAAATTGGCTGGTGGTTTGAAATGAATCATCTTCACATAATGTTTTCTTTAAAAATATTGTGAATTTAACTCTAATTCTTGTTATTCTGTGTGATAATAAAGAATAAACTAATTTCTA AK093306ATTCTATGCTGCAGCCTAAGCATCATTCCTCTTCTCTTCTTAGTGGAGATAAAATTACCCACTGCTCTCC145TTACATTTACTTTGTCCATATTTGCTCCTATGCTCTAGGCTCGTGCACAACAAACACAGTGTGGGCCCTTACCCTAGAAGCCAACTTCTCATGACCTTTCTCTATCTCCAGAATCCATGCAGTGGGAATGAAGGTAAAAGAAGGTTTTCATGGGATCCAGCTGAGAGCTCTACGGGGAAAATGGATCTGAGGAGCCATGTGCTCCATCTCTTTTATTTTACAGGTAGAGACTAGGGGTATAGAGTGAGGTGAATTACCGCAGTGACCCACACATTGTTGGCAGACCTAGGATTAGAACTCTGTCTTCCTGGTTCCCAGCTTGGTGCTTTTGAAAGCATACTTGCTGCTTTCTTACCGGCCTGGTGTCTGCCACTTTGGGACAGAGTGTGGACTTGCTCACCTGCCCCATTTCTTAGGGATTCTCATTCTGTGTTTGAGCAAGAATATTCTTATTCTGGAAAGAACCACATACCACAGGATTCTGGGTGAGCATAAGGAAGATTGTCTTGGGGATCTGACTTAGCTCACGTATAGTGGCTATGATGAATTCAGTGTCTTATTTTTTGCATATGTATATTTTTAGTCTAATATTGCCTGGGTGTCTGAGCAAGTCTAGATGAATTTAATTGCTCTCATTTTTCCCCTGCCCCTCTTCCTTTGGTCTCTCTTTTAGGAAATGTTTTTCTTTCAACATTCGTTTCATTCATTATTTACTCATTCGGCCAACCAACATTTATTGAGTGCCTTCCCTGTATCAGGGACAGGGGCTTACAAAGTAGAATTTGATCCCACCTCTGCCCTCAGTAGCTCAGTGTCTAATGGAGGTAGTGATGTTCATTAAGCGTCGCCAGATACTGTGCTAGGTGCTGTGCCTGTTCTCTCTCGCTTGTTCCTCACACACTTGAGAAGGCCGAAGCTGATTCATAGCTTGGAAGGCAGGGGCCTTGGATTTGAACCCAGGCCTGACCAATGGCAGAACCTATCAGATGTGTGGACAGATGACATTGCCTTTCTTTCTTTGGATATATCAAAATCAGCCAGCAGGCAGGAACTCCCATTTTGAGCAAGCAATGTGCAGGAATGATAGGGTATACAGAGAGGAACAGGAGATGGCCCCTGACTTCCAGCATGTGTCTGATGGACATCCAGGCTGCAGGCATCATGGTGCTGTCTAGAGAGATGAGCCAGGTGCCCAGAGCCCATGGGCCAATGCTGCCCTTTCTTGAGCATGCCAAACAAAGCGGTTGGTGTGTTAGAGGCACAGTCTCCTCCACTCTAAGTAAAAATCAGCATGAGTCCTAGCCCACATTTCCCTAGTGAGTACACCAAAGATATCTATGAACTGGCAGTCATCAGTGACTTCCTAAGGTTCCGGAAATGCATCTCTTACTCAGGAGTAAGCAATGATGTGCCTGCGGCTTTACGAGTTCTCACAGAATGACTTTCTGGACCCAAATGTTTTTTCTGCTTCAGGACTGTGAAGGCCTTATTGTTCGCTCTGCCACCAAGGTGACCGCTGATGTCATCAACGCAGCTGAGAAACTCCAGGTGGTGGGCAGGGCTGGCACAGGTGTGGACAATGTGGATCTGGAGGCCGCAACAAGGAAGGGCATCTTGGTTATGAACACCCCCAATGGGAACAGCCTCAGTGCCGCAGAACTCACTTGTGGAATGATCATGTGCCTGGCCAGGCAGATTCCCCAGGCGACGGCTTCGATGAAGGACGGCAAATGGGAGCGGAAGAAGTTCATGGGAACAGAGCTGAATGGAAAGACCCTGGGAATTCTTGGCCTGGGCAGGATTGGGAGAGAGGTAGCTACCCGGATGCAGTCCTTTGGGATGAAGACTATAGGGTATGACCCCATCATTTCCCCAGAGGTCTCGGCCTCCTTTGGTGTTCAGCAGCTGCCCCTGGAGGAGATCTGGCCTCTCTGTGATTTCATCACTGTGCACACTCCTCTCCTGCCCTCCACGACAGGCTTGCTGAATGACAACACCTTTGCCCAGTGCAAGAAGGGGGTGCGTGTGGTGAACTGTGCCCGTGGAGGGATCGTGGACGAAGGCGCCCTGCTCCGGGCCCTGCAGTCTGGCCAGTGTGCCGGGGCTGCACTGGACGTGTTTACGGAAGAGCCGCCACGGGACCGGGCCTTGGTGGACCATGAGAATGTCATCAGCTGTCCCCACCTGGGTGCCAGCACCAAGGAGGCTCAGAGCCGCTGTGGGGAGGAAATTGCTGTTCAGTTCGTGGACATGGTGAAGGGGAAATCTCTCACGGGGGTTGTGAATGCCCAGGCCCTTACCAGTGCCTTCTCTCCACACACCAAGCCTTGGATTGGTCTGGCAGAAGCTCTGGGGACACTGATGCGAGCCTGGGCTGGGTCCCCCAAAGGGACCATCCAGGTGATAACACAGGGAACATCCCTGAAGAATGCTGGGAACTGCCTAAGCCCCGCAGTCATTGTCGGCCTCCTGAAAGAGGCTTCCAAGCAGGCGGATGTGAACTTGGTGAACGCTAAGCTGCTGGTGAAAGAGGCTGGCCTCAATGTCACCACCTCCCACAGCCCTGCTGCACCAGGGGGGCAAGGCTTCGGGGAATGCCTCCTGGCCGTGGCCCTGGCAGGCGCCCCTTACCAGGCTGTGGGCTTGGTCCAAGGCACTACACCTGTACTGCAGGGGCTCAATGGAGCTGTCTTCAGGCCAGAAGTGCCTCTCCGCAGGGACCTGCCCCTGCTCCTATTCCGGACTCAGACCTCTGACCCTGCAATGCTGCCTACCATGATTGGCCTCCTGGCAGAGGCAGGCGTGCGGCTGCTGTCCTACCAGACTTCACTGGTGTCAGATGGGGAGACCTGGCACGTCATGGGCATCTCCTCCTTGCTGCCCAGCCTGGAAGCGTGGAAGCAGCATGTGACTGAAGCCTTCCAGTTCCACTTCTAACCTTGGAGCTCACTGGTCCCTGCCTCTGGGGCTTTTCTGAAGAAACCCACCCACTGTGATCAATAGGGAGAGAAAATCCACATTCTTGGGCTGAACGCGAGCCTCTGACACTGCTTACACTGCACTCTGACCCTGTAGTACAGCAATAACCGTCTAATAAAGAGCCTACCCCC BE904476CAAACAAAAACAGCCAAGCTTTTCTGCCAAAAAGATGACTGAGAAGACTGTTAAAGCAAAAAGCTCTGTT146CCTGCCTCAGATGATGCCTATCCAGAAATAGAAAAATTCTTTCCCTTCAATCCTCTAGACTTTGAGAGTTTTGACCTGCCTGAAGAGCACCAGATTGCGCACCTCCCCTTGAGTGGAGTGCCTCTCATGATCCTTGACGAGGAGAGAGAGCTTGAAAAGCTGTTTCAGCTGGGCCCCCCTTCACCTGTGAAGATGCCCTCTCCACCATGGGAATCCAATCTGTTGCAGTCTCCTTCAAGCATTCTGTCGACCCTGGATGTTGAATTGCCACCTGTTTGCTGTGACATAGATATTTAAATTTCTTAGTGCTTCAGAGTCTGTGTGTATTTGTATTAATAAAGCATTCTTTAACAGAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAGGGGGGGGAGACACAAAAAGAATTCCCCAAGAGGGGGCCACAAGATAATCAGAGGATATCACACAAGATCTCTCGGCGCACCAACGACGGGGGCCCCAAATAAGGGAGAGACCCAGAATCACAACAGCCAAGACACGGTGGACACGACGGAAACAAACACACAGCCCAGACACGGGGGCAAACACGCGCGCACACCGCGGACACCATGGGACAAAGCAGACACCACCCACAAAACAACACCGCGGAGGGGGAAGAACAACAAAACAAGTGCGCAAACAGAACACAACCACAGAAAGAGAAAAATTAAAACGGCCCCCAAGACGGCGACAACACAACAAAACAACCACTACAGAGCGCTCAACAGCCGAGTAAAAACACAACAACGGACAACTAACACACAAAGGAATGAAACAAAGCGGGGCCACACACCGACACCGGAAATCCGGCGAACAACTCACACCGAGCGAGGGTCCCAGACAACAAATACACAGACAACGAAACCGAGAAACAAGACCAGCAAGACGAGCAGGCAAAAGACAAACAAGACAGAGGAGACGACGACGAACGCAAAGGACAAGAGGACACAACGACGCGAGGAGCGAGAGCGAGAGGAAGAGACAACAAAAAGACACAAAAGAACAACAAGCAAGCAGCGAAGAACGACACACAACCACACGAGACAGCAGGAGCAGAGGCGGAGAAAACACAACGAGCAAGCCAAGACCAAGAGAGGAGAACAAAATAAAAAAATACGAGAGCAGGCGGACGAGAGCACGAGACGAACAGACAAACGGGAATCAGAAGCATAACGATCCGCGACGCGAACAACN AK123010GTGCACCCTGTCCCAGCCGTCCTGTCCTGGCTGCTCGCTCTGCTTCGCTGCGCCTCCACTATGCTCTCCC147TCCGTGTCCCGCTCGCGCCCATCACGGACCCGCAGCAGCTGCAGCTCTCGCCGCTGAAGGGGCTCAGCTTGGTCGACAAGGAGAACACGCCGCCGGCCCTGAGCGGGACCCGCGTCCTGGCCAGCAAGACCGCGAGGAGGATCTTCCAGGAGAAAACCCCCGCCGCTTTGTCATCTTCCCCATCGAGTACCATGATATCTGGCAGATGTATAAGAAGGCAGAGGCTTCCTTTTGGACCGCCGAGGAGGTGGACCTCTCCAAGGACATTCAGCACTGGGAATCCCTGAAACCCGAGGAGAGATATTTTATATCCCATGTTCTGGCTTTCTTTGCAGCAAGCGATGGCATAGTAAATGAAAACTTGGTGGAGCGATTTAGCCAAGAAGTTCAGATTACAGAAGCCCGCTGTTTCTATGGCTTCCAAATTGCCATGGAAAACATACATTCTGAAATGTATAGTCTTCTTATTGACACTTACATAAAAGATCCCAAAGAAAGGGAATTTCTCTTCAATGCCATTGAAACGATGCCTTGTGTCAAGAAGAAGGCAGACTGGGCCTTGCGCTGGATTGGGGACAAAGAGGCTACCTATGGTGAACGTGTTGTAGCCTTTGCTGCAGTGGAAGGCATTTTCTTTTCCGGTTCTTTTGCGTCGATATTCTGGCTCAAGAAACGAGGACTGATGCCTGGCCTCACATTTTCTAATGAACTTATTAGCAGAGATGAGGGTTTACACTGTGATTTTGCTTGCCTGATGTTCAAACACCTGGTACACAAACCATCGGAGGAGAGAGTAAGAGAAATAATTATCAATGCTGTTCGGATAGAACAGGAGTTCCTCACTGAGGCCTTGCCTGTGAAGCTCATTGGGATGAATTGCACTCTAATGAAGCAATACATTGAGTTTGTGGCAGACAGACTTATGCTGGAACTGGGTTTTAGCAAGGTTTTCAGAGTAGAGAACCCATTTGACTTTATGGAGAATATTTCACTGGAAGGAAAGACTAACTTCTTTGAGAAGAGAGTAGGCGAGTATCAGAGGATGGGAGTGATGTCAAGTCCAACAGAGAATTCTTTTACCTTGGATGCTGACTTCTAAATGAACTGAAGATGTGCCCTTACTTGGCTGATTTTTTTTTTTCCATCTCATAAGAAAAATCAGCTGAAGTGTTACCAACTAGCCACACCATGAATTGTCCGTAATGTTCATTAACAGCATCTTTAAAACTGTGTAGCTACCTCACAACCAGTCCTGTCTGTTTATAGTGCTGGTAGTATCACCTTTTGCCAGAAGGCCTGGCTGGCTGTGACTTACCATAGCAGTGACAATGGCAGTCTTGGCTTTAAAGTGAGGGGTGACCCTTTAGTGAGCTTAGCACAGCGGGATTAAACAGTCCTTTAACCAGCACAGCCAGTTAAAAGATGCAGCCTCACTGCTTCAACGCAGATTTTAATGTTTACTTAAATATAAACCTGGCACTTTACAAACAAATAAACATTGTTTGTACTCACAAGGCGATAATAGCTTGATTTATTTGGTTTCTACACCAAATACATTCTCCTGACCACTAATGGGAGCCAATTCACAATTCACTAAGTGACTAAAGTAAGTTAAACTTGTGTAGACTAAGCATGTAATTTTTAAGTTTTATTTTAATGAATTAAAATATTTGTTAACCAACTTTAAAGTCAGTCCTGTGTATACCTAGATATTAGTCAGTTGGTGCCAGATAGAAGACAGGTTGTGTTTTTATCCTGTGGCTTGTGTAGTGTCCTGGGATTCTCTGCCCCCTCTGAGTAGAGTGTTGTGGGATAAAGGAATCTCTCAGGGCAAGGAGCTTCTTAAGTTAAATCACTAGAAATTTAGGGGTGATCTGGGCCTTCATATGTGTGAGAAGCCGTTTCATTTTATTTCTCACTGTATTTTCCTCAACGTCTGGTTGATGAGAAAAAATTCTTGAAGAGTTTTCATATGTGGGAGCTAAGGTAGTATTGTAAAATTTCAAGTCATCCTTAAACAAAATGATCCACCTAAGATCTTGCCCCTGTTAAGTGGTGAAATCAACTAGAGGTGGTTCCTACAAGTTGTTCATTCTAGTTTTGTTTGGTGTAAGTAGGTTGTGTGAGTTAATTCATTTATATTTACTATGTCTGTTAAATCAGAAATTTTTTATTATCTATGTTCTTCTAGATTTTACCTGTAGTTCATACTTCAGTCACCCAGTGTCTTATTCTGGCATTGTCTAAATCTGAGCATTGTCTAGGGGGATCTTAAACTTTAGTAGGAAACCATGAGCTGTTAATACAGTTTCCATTCAAATATTAATTTCAGAATGAAACATAATTTTTTTTTTTTTTTTTTGAGATGGAGTCTCGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCGCGATTTTGGCTCACTGTAACCTCCATCTCCTGGGTTCAAGCAATTCTCCTGTCTCAGCCTCCCTAGTAGCTGGGACTGCAGGTATGTGCTACCACACCTGGCTAATTTTTGTATTTTTAGTAGAGATGGAGTTTCACCATATTGGTCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCCACCCACCTCGGCCTCCCAAAGTGCTGGGATTGCAGGCGTGATAAACAAATATTCTTAATAGGGCTACTTTGAATTAATCTGCCTTTATGTTTGGGAGAAGAAAGCTGAGACATTGCATGAAAGATGATGAGAGATAAATGTTGATCTTTTGGCCCCATTTGTTAATTGTATTCAGTATTTGAACGTCGTCCTGTTTATTGTTAGTTTTCTTCATCATTTATTGTATAGACAATTTTTAAATCTCTGTAATATGATACATTTTCCTATCTTTTAAGTTATTGTTACCTAAAGTTAATCCAGATTATATGGTCCTTATATGTGTACAACATTAAAATGAAAGGCTTTGTCTTGCATTGTGAGGTACAGGCGGAAGTTGGAATCAGGTTTTAGGATTCTGTCTCTCATTAGCTGAATAATGTGAGGATTAACTTCTGCCAGCTCAGACCATTTCCTAATCAGTTGAAAGGGAAACAAGTATTTCAGTCTCAAAATTGAATAATGCACAAGTCTTAAGTGATTAAAATAAAACTGTTCTTATGTCAGTTT BC036503AGCGGGGGCACTCCAGCCCTGCAGCCTCCGGAGTCAGTGCCGCGCGCCCGCCGCCCCGCGCCTTCCTGCT148CGCCGCACCTCCGGGAGCCGGGGCGCACCCAGCCCGCAGCGCCGCCTCCCCGCCCGCGCCGCCTCCGACCGCAGGCCGAGGGCCGCCACTGGCCGGGGGGACCGGGCAGCAGCTTGCGGCCGCGGAGCCGGGCAACGCTGGGGACTGCGCCTTTTGTCCCCGGAGGTCCCTGGAAGTTTGCGGCAGGACGCGCGCGGGGAGGCGGCGGAGGCAGCCCCGACGTCGCGGAGAACAGGGCGCAGAGCCGGCATGGGCATCGGGCGCAGCGAGGGGGGCCGCCGCGGGGCAGCCCTGGGCGTGCTGCTGGCGCTGGGCGCGGCGCTTCTGGCCGTGGGCTCGGCCAGCGAGTACGACTACGTGAGCTTCCAGTCGGACATCGGCCCGTACCAGAGCGGGCGCTTCTACACCAAGCCACCTCAGTGCGTGGACATCCCCGCGGACCTGCGGCTGTGCCACAACGTGGGCTACAAGAAGATGGTGCTGCCCAACCTGCTGGAGCACGAGACCATGGCGGAGGTGAAGCAGCAGGCCAGCAGCTGGGTGCCCCTGCTCAACAAGAACTGCCACGCCGGCACCCAGGTCTTCCTCTGCTCGCTCTTCGCGCCCGTCTGCCTGGACCGGCCCATCTACCCGTGTCGCTGGCTCTGCGAGGCCGTGCGCGACTCGTGCGAGCCGGTCATGCAGTTCTTCGGCTTCTACTGGCCCGAGATGCTTAAGTGTGACAAGTTCCCCGAGGGGGACGTCTGCATCGCCATGACGCCGCCCAATGCCACCGAAGCCTCCAAGCCCCAAGGCACAACGGTGTGTCCTCCCTGTGACAACGAGTTGAAATCTGAGGCCATCATTGAACATCTCTGTGCCAGCGAGTTTGCACTGAGGATGAAAATAAAAGAAGTGAAAAAAGAAAATGGCGACAAGAAGATTGTCCCCAAGAAGAAGAAGCCCCTGAAGTTGGGGCCCATCAAGAAGAAGGACCTGAAGAAGCTTGTGCTGTACCTGAAGAATGGGGCTGACTGTCCCTGCCACCAGCTGGACAACCTCAGCCACCACTTCCTCATCATGGGCCGCAAGGTGAAGAGCCAGTACTTGCTGACGGCCATCCACAAGTGGGACAAGAAAAACAAGGAGTTCAAAAACTTCATGAAGAAAATGAAAAACCATGAGTGCCCCACCTTTCAGTCCGTGTTTAAGTGATTCTCCCGGGGGCAGGGTGGGGAGGGAGCCTCGGGTGGGGTGGGAGCGGGGGGGACAGTGCCCCGGGAACCCGGTGGGTCACACACACGCACTGCGCCTGTCAGTAGTGGACATTTAATCCAGTCGGCTTGTTCTTGCAGCATTCCCGCTCCCTTCCCTCCATAGCCACGCTCCAAACCCCAGGGTAGCCATGGCCGGGTAAAGCAAGGGCCATTTAGATTAGGAAGGTTTTTAAGATCCGCAATGTGGAGCAGCAGCCACTGCACAGGAGGAGGTGACAAACCATTTCCAACAGCAACACAGCCACTAAAACACAAAAAGGGGGATTGGGCGGAAAGTGAGAGCCAGCAGCAAAAACTACATTTTGCAACTTGTTGGTGTGGATCTATTGGCTGATCTATGCCTTTCAACTAGAAAATTCTAATGATTGGCAAGTCACGTTGTTTTCAGGTCCAGAGTAGTTTCTTTCTGTCTGCTTTAAATGGAAACAGACTCATACCACACTTACAATTAAGGTCAAGCCCAGAAAGTGATAAGTGCAGGGAGGAAAAGTGCAAGTCCATTATGTAATAGTGACAGCAAAGGGACCAGGGGAGAGGCATTGCCTTCTCTGCCCACAGTCTTTCCGTGTGATTGTCTTTGAATCTGAATCAGCCAGTCTCAGATGCCCCAAAGTTTCGGTTCCTATGAGCCCGGGGCATGATCTGATCCCCAAGACATGTGGAGGGGCAGCCTGTGCCTGCCTTTGTGTCAGAAAAAGGAAACCACAGTGAGCCTGAGAGAGACGGCGATTTTCGGGCTGAGAAGGCAGTAGTTTTCAAAACACATAGTTAAAAAAGAAACAAATGAAAAAAATTTTAGAACAGTCCAGCAAATTGCTAGTCAGGGTGAATTGTGAAATTGGGTGAAGAGCTTACGATTCTAATCTCATGTTTTTTCCTTTTCACATTTTTAAAAGAACAATGACAAACACCCACTTATTTTTCAAGGTTTTAAAACAGTCTACATTGAGCATTTGAAAGGTGTGCTAGAACAAGGTCTCCTGATCCGTCCGAGGCTGCTTCCCAGAGGAGCAGCTCTCCCCAGGCATTTGCCAAGGGAGGCGGATTTCCCTGGTAGTGTAGCTGTGTGGCTTTCCTTCCTGAAGAGTCCGTGGTTGCCCTAGAACCTAACACCCCCTAGCAAAACTCACAGAGCTTTCCGTTTTTTTCTTTCCTGTAAAGAAACATTTCCTTTGAACTTGATTGCCTATGGATCAAAGAAATTCAGAACAGCCTGCCTGTCCCCCCGCACTTTTTACATATATTTGTTTCATTTCTGCAGATGGAAAGTTGACATGGGTGGGGTGTCCCCATCCAGCGAGAGAGTTTAAAAAGCAAAACATCTCTGCAGTTTTTCCCAAGTGCCCTGAGATACTTCCCAAAGCCCTTATGTTTAATCAGCGATGTATATAAGCCAGTTCACTTAGACAACTTTACCCTTCTTGTCCAATGTACAGGAAGTAGTTCTAAAAAAAATGCATATTAATTTCTTCCCCCAAAGCCGGATTCTTAATTCTCTGCAACACTTTGAGGACATTTATGATTGTCCCTCTGGGCCAATGCTTATACCCAGTGAGGATGCTGCAGTGAGGCTGTAAAGTGGCCCCCTGCGGCCCTAGCCTGACCCGGAGGAAAGGATGGTAGATTCTGTTAACTCTTGAAGACTCCAGTATGAAAATCAGCATGCCCGCCTAGTTACCTACCGGAGAGTTATCCTGATAAATTAACCTCTCACAGTTAGTGATCCTGTCCTTTTAACACCTTTTTTGTGGGGTTCTCTCTGACCTTTCATCGTAAAGTGCTGGGGACCTTAAGTGATTTGCCTGTAATTTTGGATGATTAAAAAATGTGTATATATATTAGCTAATTAGAAATATTCTACTTCTCTGTTGTCAAACTGAAATTCAGAGCAAGTTCCTGAGTGCGTGGATCTGGGTCTTAGTTCTGGTTGATTCACTCAAGAGTTCAGTGCTCATACGTATCTGCTCATTTTGACAAAGTGCCTCATGCAACCGGGCCCTCTCTCTGCGGCAGAGTCCTTAGTGGAGGGGTTTACCTGGAACATTAGTAGTTACCACAGAATACGGAAGAGCAGGTGACTGTGCTGTGCAGCTCTCTAAATGGGAATTCTCAGGTAGGAAGCAACAGCTTCAGAAAGAGCTCAAAATAAATTGGAAATGTGAATCGCAGCTGTGGGTTTTACCACCGTCTGTCTCAGAGTCCCAGGACCTTGAGTGTCATTAGTTACTTTATTGAAGGTTTTAGACCCATAGCAGCTTTGTCTCTGTCACATCAGCAATTTCAGAACCAAAAGGGAGGCTCTCTGTAGGCACAGAGCTGCACTATCACGAGCCTTTGTTTTTCTCCACAAAGTATCTAACAAAACCAATGTGCAGACTGATTGGCCTGGTCATTGGTCTCCGAGAGAGGAGGTTTGCCTGTGATTTCCTAATTATCGCTAGGGCCAAGGTGGGATTTGTAAAGCTTTACAATAATCATTCTGGATAGAGTCCTGGGAGGTCCTTGGCAGAACTCAGTTAAATCTTTGAAGAATATTTGTAGTTATCTTAGAAGATAGCATGGGAGGTGAGGATTCCAAAAACATTTTATTTTTAAAATATCCTGTGTAACACTTGGCTCTTGGTACCTGTGGGTTAGCATCAAGTTCTCCCCAGGGTAGAATTCAATCAGAGCTCCAGTTTGCATTTGGATGTGTAAATTACAGTAATCCCATTTCCCAAACCTAAAATCTGTTTTTCTCATCAGACTCTGAGTAACTGGTTGCTGTGTCATAACTTCATAGATGCAGGAGGCTCAGGTGATCTGTTTGAGCAGAGCACCCTAGGCAGCCTGCAGGGAATAACATACTGGCCGTTCTGACCTGTTGCCAGCAGATACACAGGACATGGATGAAATTCCCGTTTCCTCTAGTTTCTTCCTGTAGTACTCCTCTTTTAGATCCTAAGTCTCTTACAAAAGCTTTGAATACTGTGAAAATGTTTTACATTCCATTTCATTTGTGTTGTTTTTTTAACTGCATTTTACCAGATGTTTTGATGTTATCGCTTATGTTAATAGTAATTCCCGTACGTGTTCATTTTATTTTCATGCTTTTTCAGCCATGTATCAATATTCACTTGACTAAAATCACTCAATTAATCAAAAAAAAAAAAAAAA NM_012319AGTCCTGGGCGAAGGGGGCGGTGGTTCCCCGCGGCGCTGCGCGCGGCGGTAATTAGTGATTGTCTTCCAG149CTTCGCGAAGGCTAGGGGCGCGGCTGCCGGGTGGCTGCGCGGCGCTGCCCCCGGACCGAGGGGCAGCCAACCCAATGAAACCACCGCGTGTTCGCGCCTGGTAGAGATTTCTCGAAGACACCAGTGGGCCCGTTCCGAGCCCTCTGGACCGCCCGTGTGGAACCAAACCTGCGCGCGTGGCCGGGCCGTGGGACAACGAGGCCGCGGAGACGAAGGCGCAATGGCGAGGAAGTTATCTGTAATCTTGATCCTGACCTTTGCCCTCTCTGTCACAAATCCCCTTCATGAACTAAAAGCAGCTGCTTTCCCCCAGACCACTGAGAAAATTAGTCCGAATTGGGAATCTGGCATTAATGTTGACTTGGCAATTTCCACACGGCAATATCATCTACAACAGCTTTTCTACCGCTATGGAGAAAATAATTCTTTGTCAGTTGAAGGGTTCAGAAAATTACTTCAAAATATAGGCATAGATAAGATTAAAAGAATCCATATACACCATGACCACGACCATCACTCAGACCACGAGCATCACTCAGACCATGAGCGTCACTCAGACCATGAGCATCACTCAGACCACGAGCATCACTCTGACCATGATCATCACTCTCACCATAATCATGCTGCTTCTGGTAAAAATAAGCGAAAAGCTCTTTGCCCAGACCATGACTCAGATAGTTCAGGTAAAGATCCTAGAAACAGCCAGGGGAAAGGAGCTCACCGACCAGAACATGCCAGTGGTAGAAGGAATGTCAAGGACAGTGTTAGTGCTAGTGAAGTGACCTCAACTGTGTACAACACTGTCTCTGAAGGAACTCACTTTCTAGAGACAATAGAGACTCCAAGACCTGGAAAACTCTTCCCCAAAGATGTAAGCAGCTCCACTCCACCCAGTGTCACATCAAAGAGCCGGGTGAGCCGGCTGGCTGGTAGGAAAACAAATGAATCTGTGAGTGAGCCCCGAAAAGGCTTTATGTATTCCAGAAACACAAATGAAAATCCTCAGGAGTGTTTCAATGCATCAAAGCTACTGACATCTCATGGCATGGGCATCCAGGTTCCGCTGAATGCAACAGAGTTCAACTATCTCTGTCCAGCCATCATCAACCAAATTGATGCTAGATCTTGTCTGATTCATACAAGTGAAAAGAAGGCTGAAATCCCTCCAAAGACCTATTCATTACAAATAGCCTGGGTTGGTGGTTTTATAGCCATTTCCATCATCAGTTTCCTGTCTCTGCTGGGGGTTATCTTAGTGCCTCTCATGAATCGGGTGTTTTTCAAATTTCTCCTGAGTTTCCTTGTGGCACTGGCCGTTGGGACTTTGAGTGGTGATGCTTTTTTACACCTTCTTCCACATTCTCATGCAAGTCACCACCATAGTCATAGCCATGAAGAACCAGCAATGGAAATGAAAAGAGGACCACTTTTCAGTCATCTGTCTTCTCAAAACATAGAAGAAAGTGCCTATTTTGATTCCACGTGGAAGGGTCTAACAGCTCTAGGAGGCCTGTATTTCATGTTTCTTGTTGAACATGTCCTCACATTGATCAAACAATTTAAAGATAAGAAGAAAAAGAATCAGAAGAAACCTGAAAATGATGATGATGTGGAGATTAAGAAGCAGTTGTCCAAGTATGAATCTCAACTTTCAACAAATGAGGAGAAAGTAGATACAGATGATCGAACTGAAGGCTATTTACGAGCAGACTCACAAGAGCCCTCCCACTTTGATTCTCAGCAGCCTGCAGTCTTGGAAGAAGAAGAGGTCATGATAGCTCATGCTCATCCACAGGAAGTCTACAATGAATATGTACCCAGAGGGTGCAAGAATAAATGCCATTCACATTTCCACGATACACTCGGCCAGTCAGACGATCTCATTCACCACCATCATGACTACCATCATATTCTCCATCATCACCACCACCAAAACCACCATCCTCACAGTCACAGCCAGCGCTACTCTCGGGAGGAGCTGAAAGATGCCGGCGTCGCCACTCTGGCCTGGATGGTGATAATGGGTGATGGCCTGCACAATTTCAGCGATGGCCTAGCAATTGGTGCTGCTTTTACTGAAGGCTTATCAAGTGGTTTAAGTACTTCTGTTGCTGTGTTCTGTCATGAGTTGCCTCATGAATTAGGTGACTTTGCTGTTCTACTAAAGGCTGGCATGACCGTTAAGCAGGCTGTCCTTTATAATGCATTGTCAGCCATGCTGGCGTATCTTGGAATGGCAACAGGAATTTTCATTGGTCATTATGCTGAAAATGTTTCTATGTGGATATTTGCACTTACTGCTGGCTTATTCATGTATGTTGCTCTGGTTGATATGGTACCTGAAATGCTGCACAATGATGCTAGTGACCATGGATGTAGCCGCTGGGGGTATTTCTTTTTACAGAATGCTGGGATGCTTTTGGGTTTTGGAATTATGTTACTTATTTCCATATTTGAACATAAAATCGTGTTTCGTATAAATTTCTAGTTAAGGTTTAAATGCTAGAGTAGCTTAAAAAGTTGTCATAGTTTCAGTAGGTCATAGGGAGATGAGTTTGTATGCTGTACTATGCAGCGTTTAAAGTTAGTGGGTTTTGTGATTTTTGTATTGAATATTGCTGTCTGTTACAAAGTCAGTTAAAGGTACGTTTTAATATTTAAGTTATTCTATCTTGGAGATAAAATCTGTATGTGCAATTCACCGGTATTACCAGTTTATTATGTAAACAAGAGATTTGGCATGACATGTTCTGTATGTTTCAGGGAAAAATGTCTTTAATGCTTTTTCAAGAACTAACACAGTTATTCCTATACTGGATTTTAGGTCTCTGAAGAACTGCTGGTGTTTAGGAATAAGAATGTGCATGAAGCCTAAAATACCAAGAAAGCTTATACTGAATTTAAGCAAAGAAATAAAGGAGAAAAGAGAAGAATCTGAGAATTGGGGAGGCATAGATTCTTATAAAAATCACAAAATTTGTTGTAAATTAGAGGGGAGAAATTTAGAATTAAGTATAAAAAGGCAGAATTAGTATAGAGTACATTCATTAAACATTTTTGTCAGGATTATTTCCCGTAAAAACGTAGTGAGCACTTTTCATATACTAATTTAGTTGTACATTTAACTTTGTATAATACAGAAATCTAAATATATTTAATGAATTCAAGCAATATATCACTTGACCAAGAAATTGGAATTTCAAAATGTTCGTGCGGGTATATACCAGATGAGTACAGTGAGTAGTTTTATGTATCACCAGACTGGGTTATTGCCAAGTTATATATCACCAAAAGCTGTATGACTGGATGTTCTGGTTACCTGGTTTACAAAATTATCAGAGTAGTAAAACTTTGATATATATGAGGATATTAAAACTACACTAAGTATCATTTGATTCGATTCAGAAAGTACTTTGATATCTCTCAGTGCTTCAGTGCTATCATTGTGAGCAATTGTCTTTTATATACGGTACTGTAGCCATACTAGGCCTGTCTGTGGCATTCTCTAGATGTTTCTTTTTTACACAATAAATTCCTTATATCAGCTTGAAAAAAAAAAAAAAAAAAAK098106AACGCACTTGGCGCGCGGCGCGGGCTGCAGACGGCTGCGAGGCGCTGGGCACAGGTGTCCTGATGGCAAA150TTTCAAGGGCCACGCGCTTCCAGGGAGTTTCTTCCTGATCATTGGGCTGTGTTGGTCAGTGAAGTACCCGCTGAAGTACTTTAGCCACACGCGGAAGAACAGCCCACTACATTACTATCAGCGTCTCGAGATCGTCGAAGCCGCAATTAGGACTTTGTTTTCCGTCACTGGGATCCTGGCAGAGCAGTTTGTTCCGGATGGGCCCCACCTGCACCTCTACCATGAGAACCACTGGATAAAGTTAATGAATTGGCAGCACAGCACCATGTACCTATTCTTTGCAGTCTCAGGAATTGTTGACATGCTCACCTATCTGGTCAGCCACGTTCCCTTGGGGGTGGACAGACTGGTTATGGCTGTGGCAGTATTCATGGAAGGTTTCCTCTTCTACTACCACGTCCACAACCGGCCTCCGCTGGACCAGCACATCCACTCACTCCTGCTGTATGCTCTGTTCGGAGGGTGTGTTAGTATCTCCCTAGAGGTGATCTTCCGGGACCACATTGTGCTGGAACTTTTCCGAACCAGTCTCATCATTCTTCAGGGAACCTGGTTCTGGCAGATTGGGTTTGTGCTGTTCCCACCTTTTGGAACACCCGAATGGGACCAGAAGGATGATGCCAACCTCATGTTCATCACCATGTGCTTCTGCTGGCACTACCTGGCTGCCCTCAGCATTGTGGCCGTCAACTATTCTCTTGTTTACTGCCTTTTGACTCGGATGAAGAGACACGGAAGGGGAGAAATCATTGGAATTCAGAAGCTGAATTCAGATGACACTTACCAGACCGCCCTCTTGAGTGGCTCAGATGAGGAATGAGCCGAGATGCGGAGGGCGCAGATGTCCCACTGCACAGCTGGAATGAATGGAGTTCATCCCCTCCACCTGAATGCCTGCTGTGGTCTGATCTTAAGGGTCTATATATTTGCACCTCCTCATTCAACACAGGGCTGGAGGTTCTACAACAGGAAATCAGGCCTACAGCATCCTGTGTATCTTGCAGTTGGGATTTTTAAACATACTATAAAGTCTGTGTTGGTATAGTACCCTTCATAAGGAAAAATGAAGTAATGCCTATAAGTAGCAGGCCTTTGTGCCTCAGTGTCAAGAGAAATCAAGAGATGCTAAAAGCTTTACAATGGAAGTGGCCTCATGGATGAATCCGGGGTATGAGCCCAGGAGAACGTGCTGCTTTTGGTAACTTATCCCTTTTTCTCTTAAGAAAGCAGGTACTTTCTTATTAGAAATATGTTAGAATGTGTAAGCAAACGACAGTGCCTTTAGAATTACAATTCTAACTTACATATTTTTTGAAAGTAAAATAATTCACAAGCTTTGGTATTTTAAAATTATTGTTAAACATATCATAACTAATCATACCAGGGTACTGCAATACCACTGTTTATAAGTGACAAAATTAGGCCAAAGGTGATTTTTTTTTAAATCAGGAAGCTGGTTACTGGCTCTACTGAGAGTTGGAGCCCTGATGTTCTGATTCTTCAAAGTCACCCTAAAAGAAGATCTGACAGGAAAGCTGTATAATGAGATAGAAAAACGTCAGGTATGGAAGGCTTTCAGTTTTAATATGGCTGAAAGCAAAGGATAACGAATTCAGAATTAGTAATGTAAAATCTTGATACCCTAATCTTGCTTCTGGATCTGTTCTTTTTTTAAAAAAACTTCCTTCACCGCGCCTATAATCCTAGCACTTTGGGAGGCCGAGGCAGGCAGATCACGGGGTCAGGAGATCAAGACCATCCTGGCTAACATGGTGAAACCCCGTCTCTACTGAAAATACAAAAAATTAGCCGGGTGTGGTGGCGGGCGCCTGTAGTTCCAGCTACTCGGGAGGCTGAGGCAAGAGAATGGCATGAACCCGGTAGGGGAGCTTGCAGTGAGCCCAGATCATGCCACTGTACTCCAGCCTAGGTGACAGAGCAAGACTCTGTCTCAAAAACAAGCAAACAGACTTCCTTCAACAAATATTTATTAAATATCCACTTTGCAACAGCACTGAAATGGCTGTAAGGACTCCTGAGATATGTGTCCAGCAAGGAGTTTACAGTCAAACAGGAGAGACATGCCTGTAGTTACATCCAGTGTGATGGGTGCTGAGAGGCAAGTACAAACCACGATG BQ056428TCCCGCCGCGCCACTTCGCCTGCCTCCGTCCCCCGCCCGCCGCGCCATGCCTGTGGCCGGCTCGGAGCTG151CCGCGCCGGCCCTTGCCCCCCGCCGCACAGGAGCGGGACGCCGAGCCGCGTCCGCCGCACGGGGAGCTGCAGTACCTGGGGCAGATCCAACACATCCTCCGCTGCGGCGTCAGGAAGGACGCCCGCCCGGGCACCGGTACCCTGCCGGTATTCGGCATGCAGGCGCGCTACAGCCTGAGAGATGAATTCCCTCTGCTGACAACCAAACGTGTGTTCTGGAACGGTGCTTCGGAGGAGCTGCTGTGGCTTATCAAGGGATCCACAAACGCTATAGACCTGTCTTCCCCGGCAGCGAAAATCTCGGGATGCCACTGGATCCCGACACTCTCTGGACACCCTGGGATTCTCCACCAGAGAAGAACGCGACTTGGGCCCAGTTTGTGGCTCTCAGCGGAGGCCTCCTGTGGCAGAATACATACATTTCCAATCAGATCACTTCCCGGACACGGACCNTGACCAGCCTGCCAAAAAGTGGATTTCCCCCCACCCCAGAACCCANCCCCTGACGCACAGAAACCAACCCATTCGTTGTTGCCGCCTTGCGAACCCCAACCAGAATCTCTCCCCCCTGGCCGGCGCGCCTGCCGCTGCCAATGCCCCTATGGCGGCCTCTTGGCCCGCACCTTCCAATTGGTCGCCCTGCGCAACCAGCGAGAAAACACTGGCCCGCCCGTCTCCCCCCCGCTCCGCCTACCCCACTTAATGCGCCTCCGTGGCATGACGCACGCGTTTGGTGTCCGCCGCCGTCTCATGTCCGCGCGGTGTGGACCCCCTTTTCTCTCGCGGCACATCCCCCCTATTCCCTTGCCCTTTGGGGGGCACCCCCTCTAGACCCGCGCTTCTCTTCTCGTCCGGTGGGGGACATTGGTTTGCCTGCCGCGGCGGGGGCGNTAAAAATAAAAACAGCCTGTTAGCCCGGCCCAGTACCCCCCCCCGGCCGGGGCCGCCTTNCGTTTGCATTTATACCCCAACCCATAAAGCCGCGCCCCTTTAGCNCCNTAACTTTTGTGGTGTGGCCTCCCCCCTTTTTCCCGGGGAGCAGCAACGGACATCTGTACACTAATGCTGGCCCCGACCTTTCCCAAAAACCCCCCGCCCGTGTCCCGTATAAATTTGGTGCCAANCCTGACGNGTTCTCCCCCGCCCTCGCCCCGTTGGCCGCCCGTTTAAAGCCCCCCCGGTGGTTGCGCCGCCCAACGAGTCCACCTATAGTTAANTCCACCAACACCCCCACCTTTTCCTCCCCGCCGCATCTTCCCCACGTACCCCCTTTTGTCGCGAGATGGCCACTCCCCCCCCCCTGTTTGTTTAAAACAACGAGAATGGTGCTGCCAACGCTGGTCTTTTCCCCCCCCGGACCGCGACCGCCAGGGGGAATACGTACCATAAGCCCCCGCGCCCNCCTTTTTTCCCCCCTCCCCGCCAATCAAGATCCGCCGTCCATTAGACGTATTATTTTTCCCGCGATACACGAAAAAACAGGGCCGCCCATTTATAACTAAATTCCCGTCGCCGCCGCGCGGATATGTTTCCCAAAATACCACCCCCCCCCCCCCATTTTCTTTGCCCCCAACTCCTGCGCACCGGTGTTCACCAGCCTCGCGCCGCBC032677GGACGCGTGGGTCGACCCACGCGTCCGGACCCACGCGTCCGGTCGTGTTCTCCGAGTTCCTGTCTCTCTG152CCAACGCCGCCCGGATGGCTTCCCAAAACCGCGACCCAGCCGCCACTAGCGTCGCCGCCGCCCGTAAAGGAGCTGAGCCGAGCGGGGGCGCCGCCCGGGGTCCGGTGGGCAAAAGGCTACAGCAGGAGCTGATGACCCTCATGGTGAGTGATTAAGTGCCCAGAACCCCAGCCTTCCATCCAATTTTCAGTAGCCTCCTTTTTTCCGTCAGCTTTTTTGCTAGACATAGGGGTAATGTAATTTGCTCCCTCCTGGGAAAGAAGTTCATACACCCCACCTACACCATTTCTTCCAGCAGTCCCTCCTCCCAATTCCATCCCCCCACACGAAGTTATCTCGAACACTTCCCTGAAGTCATACAAGACCCTCCCTATCCAGTGTGTCCCTACTTCCTAGCCCCAACCAAGCTTTACCCACACCCAACTCCCCGCCCTTCTTGGTATTTCTAGCCTATGAATTTGGTTGCTTTATTTTGGATCAGAGTGATGAGATTAAGGGGAGGCTGGGCGCGGTAGCTCACACCTTATAATCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCGGCCAGCAACTAATATTCTAATTGAACTAAAGCACAGGATGCCAATTTACAATCCTTAGACCAAAGAGTCACTGATGTCTCCACCAGATAAGAGGAAAGCATCAGGCTAGGCATAGTGGCTCACACCTGTAATCTCAGCACTTTGGGAGGCTGAGGCAGGCAGATCACATGAGCCCAGGAGTTTGAGACTGGCCTGGGCAACATGGTGAAACCCTGTCTCTAAAATAAAAACTAAACTAAAAAAACTTTTTAAAAAGGCAGTGGGGAGCATCAGAACCAGCTCAACAGTTTGTCTACTGTCCGGTCCCAGAGAAACTCAAGATTCTAGCAAGCCCCTTGTGTGGGGCTTGGGTTGGGACATGAGGCTGCTGCTGGAGCTTACTCTGCAACTGTTTCTCCAAATGCCAGGTATATGAAGACCTGAGGTATAAGCTCTCGCTAGAGTTCCCCAGTGGCTACCCTTACAATGCGCCCACAGTGAAGTTCCTCACGCCCTGCTATCACCCCAACGTGGACACCCAGGGTAACATATGCCTGGACATCCTGAAGGAAAAGTGGTCTGCCCTGTATGATGTCAGGACCATTCTGCTCTCCATCCAGAGCCTTCTAGGAGAACCCAACATTGATAGTCCCTTGAACACACATGCTGCCGAGCTCTGGAAAAACCCCACAGCTTTTAAGAAGTACCTGCAAGAAACCTACTCAAAGCAGGTCACCAGCCAGGAGCCCTGACCCAGGCTGCCCAGCCTGTCCTTGTGTCGTCTTTTTAATTTTTCCTTAGATGGTCTGTCCTTTTTGTGATTTCTGTATAGGACTCTTTATCTTGAGCTGTGGTATTTTTGTTTTGTTTTTGTCTTTTAAATTAAGCCTCGGTTGAGCCCTTGTATATTAAATAAATGCATTTTTGTCCTTTTTTAAAAAAAAAATAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA A

The subset of the genes that maybe assayed for expression include atleast 1, at least 2, at least 3, at least 4, at least 5, at least 6, atleast 7, at least 8, at least 9, at least 10, at least 11, at least 12,at least 13, at least 14, at least 15, at least 16, at least 17, atleast 18, at least 19, at least 20, at least 21, at least 22, at least23, at least 24, at least 25, at least 26, at least 27, at least 28, atleast 29, at least 30, at least 31, at least 32, at least 33, at least34, at least 35, at least 36, at least 37, at least 38, at least 39, atleast 40, at least 41, at least 42, at least 43, at least 44, at least45, at least 46, at least 47, at least 48, at least 49 or all 50 of thegenes listed in Table 2.

The gene set contains many genes that are known markers forproliferation. The methods of the present invention provide for thedetermination of subsets of genes that provide a proliferationsignature. The methods of the present invention can include determiningthe expression of at least one proliferation gene. Preferably, the atleast one proliferation gene is least 1, at least 2, at least 3, atleast 4, at least 5, at least 6, at least 7, at least 8, at least 9, atleast 10, at least 11, at least 12, at least 13, at least 14, at least15, at least 16, at least 17, at least 18, at least 19, at least 20, orat least 21 genes listed in Table 1 or Table 2.

The methods of the present invention can include determining theexpression of at least one of, a combination of, or each of, a 21-genesubset of the PAM50 intrinsic genes selected from ANLN, BIRC5, CCNB1,CCNE1, CDC20, CDC6, CDCA1, CENPF, CEP55, EXO1, KIF2C, KNTC2, MELK,MKI67, MYBL2, ORC6L, PTTG1, RRM2, TYMS, UBE2C and/or UBE2T. The methodsof the present invention can include determining the expression of atleast one of, a combination of, or each of, a 19-gene subset of thePAM50 intrinsic genes selected from ANLN, CCNB1, CCNE1, CDC20, CDC6,CDCA1, CENPF, CEP55, EXO1, KIF2C, KNTC2, MELK, MKI67, ORC6L, PTTG1,RRM2, TYMS, UBE2C and/or UBE2T. The methods of the present invention caninclude determining the expression of at least one of, a combination of,or each of, a 18-gene subset of the PAM50 intrinsic genes selected fromANLN, CCNE1, CDC20, CDC6, CDCA1, CENPF, CEP55, EXO1, KIF2C, KNTC2, MELK,MKI67, ORC6L, PTTG1, RRM2, TYMS, UBE2C and/or UBE2T. The methods of thepresent invention can include determining the expression of at least oneof, a combination of, or each of, a 11-gene subset of the PAM50intrinsic genes selected from BIRC5, CCNB1, CDC20, CDCA1/NUF2, CEP55,KNTC2/NDC80, MKI67, PTTG1, RRM2, TYMS and/or UBE2C. The methods of thepresent invention can include determining the expression of at least oneof, a combination of, or each of, a 10-gene subset of the PAM50intrinsic genes selected from ANLN, CCNB1, CDC20, CENPF, CEP55, KIF2C,MKI67, MYBL2, RRM2 and/or UBE2C.

Methods of determining a proliferation signature from a biologicalsample are as described in Nielsen et al. Clin. Cancer Res.,16(21):5222-5232 (2009) and supplemental online material and in Bastienet al. BMC Medical Genomics, 5:44 (2012) (published online) andsupplemental online material (these documents are incorporated herein,by reference, in their entireties).

The present invention provides methods for determining a proliferationsignature (also referred to as proliferation score or p-score, theseterms are utilized interchangeably herein) of a breast cancer samplefrom a subject. The expression of one or more of the genes listed inTable 1 may be determined using methods known in the art and describedherein, and normalized to control housekeeping genes (i.e., MRPL19,PSMC4, SF3A1, PUM1, ACTB, GAPD, GUSB, RPLPO, and TFRC). Preferably, theone or more genes from Table 1 are a subset of genes known forproliferation (e.g., cell cycle regulated genes see Bastien et al., BMCMedical Genomics 5:44-, 2012), as described herein. Optionally, the geneexpression can be also normalized to a control sample by determining theratio of each gene between the sample and a control sample. While anycontrol sample known in the art may be utilized, one exemplary controlsample comprises in vitro transcribed RNA sequences of each gene at aknown concentration. The mean of all the log ratios or normalized valuesof each proliferation gene can be calculated to determine the averageproliferation gene expression of the sample. The proliferation signaturecan be determined by scaling the calculated average gene expression to arange of, for example 1-10 (e.g., FIG. 4), wherein the scaling isdetermined by a reference sample set. The lowest value of theproliferation signature corresponds to the lowest proliferationsignature in the reference sample set, and the highest value of theproliferation signature corresponds to the highest proliferationsignature, and the proliferation signature of a sample can be determinedthrough linear interpolation between the highest and lowest values ofthe reference sample set.

The reference sample set is a population of breast cancer sampleswherein the proliferation signature of each sample has been determinedas described supra. The reference sample set must be of sufficient sizesuch that the set can be used to assess various clinical variables, forexample response to treatment regimen, estrogen receptor status, andtumor size and the like, with statistical significance. In someembodiments, the reference sample set comprises primary breast cancertissue from subjects diagnosed with breast cancer and “normal” breasttissue samples from reduction mammoplasties or non-cancerous breasttissue. These samples can be classified to particular breast cancerintrinsic subtypes, for example Luminal A, Luminal B, Basal-like andHer2 using the PAM50 classification model described herein. For example,the reference sample set contains at least 100 samples, at least 200samples, at least 300 samples, at least 400 samples, at least 500samples, at least 600 samples, at least 700 samples, at least 800samples, at least 900 samples, or at least 1000 samples. Preferably, thereference sample set contains at least 500 samples.

The proliferation signatures of each reference sample in the referencesample set can be arranged from lowest to highest, for example 1 to 10.Once arranged by proliferation signature, the reference sample set canthen be divided into sub-ranges, wherein each sub-range is anon-overlapping fraction of the reference set. The proliferationsignature of the sample can be compared to reference sample set. Thesesub-ranges are used to determine the cutoff threshold limits for a lowproliferation signature. For example, the sub-range can be 50%, 33%,30%, 25%, 20%, 15%, 10%, or 5% of the proliferation signatures of thearranged reference sample set. Irrespective of the number of sub-ranges,the proliferation signature of the sample is deemed to be a lowproliferation signature if it is present within the lowest sub-range ofthe reference sample set. For example, if the reference sample set isdivided into three sub-ranges, the classification of a low proliferationsignature is assigned if the proliferation signature of the sample ispresent within the lowest 33% of proliferation scores of the arrangedreference sample set.

DEFINITIONS

For the purposes of the present disclosure, “breast cancer” includes,for example, those conditions classified by biopsy or histology asmalignant pathology. The clinical delineation of breast cancer diagnosesis well known in the medical arts. One of skill in the art willappreciate that breast cancer refers to any malignancy of the breasttissue, including, for example, carcinomas and sarcomas. Particularembodiments of breast cancer include ductal carcinoma in situ (DCIS),lobular carcinoma in situ (LCIS), or mucinous carcinoma. Breast canceralso refers to infiltrating ductal (IDC) or infiltrating lobularcarcinoma (ILC). In most embodiments of the disclosure, the subject ofinterest is a human patient suspected of or actually diagnosed withbreast cancer.

For the purposes of the present disclosure, “taxane or taxanederivatives” are diterpenes, a class of drugs used in cancerchemotherapy produced by the plants of the genus Taxus (yews). Thesedrugs are used to treat a wide variety of cancers including breastcancer. However, this class of drugs is extremely toxic and producessignificant deleterious side effects. Taxanes and taxane derivativesinclude paclitaxel (Taxol®) or docetaxel (Taxotere®).

For the purposes of the present disclosure, “a breast cancer treatmentcomprising taxane or a taxane derivative” is a breast cancer treatmentthat includes a taxane or a taxane derivative. These treatments can alsoinclude other cancer agents. These other agents can includeanthracycline, cyclophosphamide or 5-fluorouracil, or a combinationthereof.

For the purposes of the present disclosure, “a breast cancer treatmentnot comprising taxane or a taxane derivative” is a breast cancertreatment that does not include any taxane or a taxane derivative. Thesetreatments contain other anti-cancer agents. These other agents caninclude anthracycline, cyclophosphamide or 5-fluorouracil, or acombination thereof.

Preferably taxanes and taxane derivatives are administeredintravenously, but can be administered by any method known in the art.Taxanes or taxane derivatives can be administered at dosages from about75 mg/m² to about 300 mg/m², preferably from about 75 mg/m² to about 175mg/m², and most preferably about 100 mg/m². It is preferred that dosagesbe administered over a time period of about 1 to about 24 hours orweekly (5-7 days). Dosages can be repeated from 1 to about 4 weeks ormore, preferably from about 2 to about 3 weeks. Preferably, the dosageschedule is eight 1-week courses of paclitaxel administered via a60-minute intravenous infusion.

Preferably anthracyclines are administered intravenously, but can beadministered by any method known in the art. Anthracyclines can beadministered at dosages from 10 mg/^(m2) to 300 mg/^(m2) per week.Anthracyclines can be administered at 20-200 mg/^(m2), 30-100 mg/^(m2),or 35-75 mg/^(m2) per week. Preferably, the anthracycline isadministered at about 60 mg/m2 per week. Anthracyclines includedaunorubicin, doxorubicin, epirubicin, idarubicin, valrubicin andmitoxantrone.

Preferably 5-fluorouracil is administered intravenously, but can beadministered by any method known in the art. 5-fluorouracil can beadministered at dosages from 25 mg/m² to 1000 mg/m² per week.5-fluorouracil can be administered at 50-900 mg/m², 100-800 mg/m²,300-700 mg/m² or 450-650 mg/m² per week. Preferably, 5-fluorouracil isadministered at about 500 mg/m² per week.

Preferably cyclophosphamide is administered orally, but can beadministered by any method known in the art. Cyclophosphamide can beadministered at dosages from 10 mg/m² to 300 mg/m² per day.Cyclophosphamide can be administered at 20-200 mg/m², 30-100 mg/m², or40-80 mg/m² per day. Preferably, cyclophosphamide is administered atabout 75 mg/m² per day.

Methods, schedules and dosages for administering taxanes or taxanederivatives, anthracyclines, 5-fluorouracil and/or cyclophosphamide aredescribed in Martin et al., J Natl Cancer Inst. 100(11):805-14, 2008,which is incorporated herein, by reference, in its entirety.

The article “a” and “an” are used herein to refer to one or more thanone (i.e., to at least one) of the grammatical object of the article. Byway of example, “an element” means one or more element.

Throughout the specification the word “comprising,” or variations suchas “comprises” or “comprising,” will be understood to imply theinclusion of a stated element, integer or step, or group of elements,integers or steps, but not the exclusion of any other element, integeror step, or group of elements, integers or steps.

Clinical Variables

As described herein, a number of clinical and prognostic breast cancerfactors are known in the art and are used to predict treatment outcomeand the likelihood of disease recurrence. Such factors include, forexample, lymph node involvement, tumor size, histologic grade, estrogenand progesterone hormone receptor status, HER-2 levels, and tumorploidy. In one embodiment, risk of relapse (ROR) score is provided for asubject diagnosed with or suspected of having breast cancer. This scoreuses the PAM50 classification model in combination with clinical factorsof lymph node status (N) and tumor size (T). Assessment of clinicalvariables is based on the American Joint Committee on Cancer (AJCC)standardized system for breast cancer staging. In this system, primarytumor size is categorized on a scale of 0-4 (TO: no evidence of primarytumor; T1: <2 cm; T2: >2 cm-<5 cm; T3: >5 cm; T4: tumor of any size withdirect spread to chest wall or skin). Lymph node status is classified asN0-N3 (NO: regional lymph nodes are free of metastasis; N1: metastasisto movable, same-side axillary lymph node(s); N2: metastasis tosame-side lymph node(s) fixed to one another or to other structures; N3:metastasis to same-side lymph nodes beneath the breastbone). Methods ofidentifying breast cancer patients and staging the disease are wellknown and may include manual examination, biopsy, review of patient'sand/or family history, and imaging techniques, such as mammography,magnetic resonance imaging (MRI), and positron emission tomography(PET).

Sample Source

In one embodiment of the present disclosure, breast cancer subtype isassessed through the evaluation of expression patterns, or profiles, ofthe intrinsic genes listed in Table 1 in one or more subject samples.For the purpose of discussion, the term subject, or subject sample,refers to an individual regardless of health and/or disease status. Asubject can be a subject, a study participant, a control subject, ascreening subject, or any other class of individual from whom a sampleis obtained and assessed in the context of the disclosure. Accordingly,a subject can be diagnosed with breast cancer, can present with one ormore symptoms of breast cancer, or a predisposing factor, such as afamily (genetic) or medical history (medical) factor, for breast cancer,can be undergoing treatment or therapy for breast cancer, or the like.Alternatively, a subject can be healthy with respect to any of theaforementioned factors or criteria. It will be appreciated that the term“healthy” as used herein, is relative to breast cancer status, as theterm “healthy” cannot be defined to correspond to any absoluteevaluation or status. Thus, an individual defined as healthy withreference to any specified disease or disease criterion, can in fact bediagnosed with any other one or more diseases, or exhibit any other oneor more disease criterion, including one or more cancers other thanbreast cancer. However, the healthy controls are preferably free of anycancer.

In particular embodiments, the methods for predicting breast cancerintrinsic subtypes include collecting a biological sample comprising acancer cell or tissue, such as a breast tissue sample or a primarybreast tumor tissue sample. By “biological sample” is intended anysampling of cells, tissues, or bodily fluids in which expression of anintrinsic gene can be detected. Examples of such biological samplesinclude, but are not limited to, biopsies and smears. Bodily fluidsuseful in the present disclosure include blood, lymph, urine, saliva,nipple aspirates, gynecological fluids, or any other bodily secretion orderivative thereof. Blood can include whole blood, plasma, serum, or anyderivative of blood. In some embodiments, the biological sample includesbreast cells, particularly breast tissue from a biopsy, such as a breasttumor tissue sample. Biological samples may be obtained from a subjectby a variety of techniques including, for example, by scraping orswabbing an area, by using a needle to aspirate cells or bodily fluids,or by removing a tissue sample (i.e., biopsy). Methods for collectingvarious biological samples are well known in the art. In someembodiments, a breast tissue sample is obtained by, for example, fineneedle aspiration biopsy, core needle biopsy, or excisional biopsy.Fixative and staining solutions may be applied to the cells or tissuesfor preserving the specimen and for facilitating examination. Biologicalsamples, particularly breast tissue samples, may be transferred to aglass slide for viewing under magnification. In one embodiment, thebiological sample is a formalin-fixed, paraffin-embedded breast tissuesample, particularly a primary breast tumor sample. In variousembodiments, the tissue sample is obtained from a pathologist-guidedtissue core sample.

Expression Profiling

In various embodiments, the present disclosure provides methods forclassifying, prognosticating, or monitoring breast cancer in subjects.In this embodiment, data obtained from analysis of intrinsic geneexpression is evaluated using one or more pattern recognitionalgorithms. Such analysis methods may be used to form a predictivemodel, which can be used to classify test data. For example, oneconvenient and particularly effective method of classification employsmultivariate statistical analysis modeling, first to form a model (a“predictive mathematical model”) using data (“modeling data”) fromsamples of known subtype (e.g., from subjects known to have a particularbreast cancer intrinsic subtype: LumA, LumB, Basal-like, HER2-enriched,or normal-like), and second to classify an unknown sample (e.g., “testsample”) according to subtype. Pattern recognition methods have beenused widely to characterize many different types of problems ranging,for example, over linguistics, fingerprinting, chemistry and psychology.In the context of the methods described herein, pattern recognition isthe use of multivariate statistics, both parametric and non-parametric,to analyze data, and hence to classify samples and to predict the valueof some dependent variable based on a range of observed measurements.There are two main approaches. One set of methods is termed“unsupervised” and these simply reduce data complexity in a rational wayand also produce display plots which can be interpreted by the humaneye. However, this type of approach may not be suitable for developing aclinical assay that can be used to classify samples derived fromsubjects independent of the initial sample population used to train theprediction algorithm.

The other approach is termed “supervised” whereby a training set ofsamples with known class or outcome is used to produce a mathematicalmodel which is then evaluated with independent validation data sets.Here, a “training set” of intrinsic gene expression data is used toconstruct a statistical model that predicts correctly the “subtype” ofeach sample. This training set is then tested with independent data(referred to as a test or validation set) to determine the robustness ofthe computer-based model. These models are sometimes termed “expertsystems,” but may be based on a range of different mathematicalprocedures. Supervised methods can use a data set with reduceddimensionality (for example, the first few principal components), buttypically use unreduced data, with all dimensionality. In all cases themethods allow the quantitative description of the multivariateboundaries that characterize and separate each subtype in terms of itsintrinsic gene expression profile. It is also possible to obtainconfidence limits on any predictions, for example, a level ofprobability to be placed on the goodness of fit. The robustness of thepredictive models can also be checked using cross-validation, by leavingout selected samples from the analysis.

The PAM50 classification model described herein is based on the geneexpression profile for a plurality of subject samples using theintrinsic genes listed in Table 1. The plurality of samples includes asufficient number of samples derived from subjects belonging to eachsubtype class. By “sufficient samples” or “representative number” inthis context is intended a quantity of samples derived from each subtypethat is sufficient for building a classification model that can reliablydistinguish each subtype from all others in the group. A supervisedprediction algorithm is developed based on the profiles ofobjectively-selected prototype samples for “training” the algorithm. Thesamples are selected and subtyped using an expanded intrinsic gene setaccording to the methods disclosed in International Patent PublicationWO 2007/061876, which is herein incorporated by reference in itsentirety. Alternatively, the samples can be subtyped according to anyknown assay for classifying breast cancer subtypes. After stratifyingthe training samples according to subtype, a centroid-based predictionalgorithm is used to construct centroids based on the expression profileof the intrinsic gene set described in Table 1.

In one embodiment, the prediction algorithm is the nearest centroidmethodology related to that described in Narashiman and Chu (2002) PNAS99:6567-6572, which is herein incorporated by reference in its entirety.In the present disclosure, the method computes a standardized centroidfor each subtype. This centroid is the average gene expression for eachgene in each subtype (or “class”) divided by the within-class standarddeviation for that gene. Nearest centroid classification takes the geneexpression profile of a new sample, and compares it to each of theseclass centroids. Subtype prediction is done by calculating theSpearman's rank correlation of each test case to the five centroids, andassigning a sample to a subtype based on the nearest centroid.

Detection of Intrinsic Gene Expression

Any methods available in the art for detecting expression of theintrinsic genes listed in Table 1 are encompassed herein. By “detectingexpression” is intended determining the quantity or presence of an RNAtranscript or its expression product of an intrinsic gene. Methods fordetecting expression of the intrinsic genes of the disclosure, that is,gene expression profiling, include methods based on hybridizationanalysis of polynucleotides, methods based on sequencing ofpolynucleotides, immunohistochemistry methods, and proteomics-basedmethods. The methods generally detect expression products (e.g., mRNA)of the intrinsic genes listed in Table 1. In preferred embodiments,PCR-based methods, such as reverse transcription PCR (RT-PCR) (Weis etal., TIG 8:263-64, 1992), and array-based methods such as microarray(Schena et al., Science 270:467-70, 1995) are used. By “microarray” isintended an ordered arrangement of hybridizable array elements, such as,for example, polynucleotide probes, on a substrate. The term “probe”refers to any molecule that is capable of selectively binding to aspecifically intended target biomolecule, for example, a nucleotidetranscript or a protein encoded by or corresponding to an intrinsicgene. Probes can be synthesized by one of skill in the art, or derivedfrom appropriate biological preparations. Probes may be specificallydesigned to be labeled. Examples of molecules that can be utilized asprobes include, but are not limited to, RNA, DNA, proteins, antibodies,and organic molecules.

Many expression detection methods use isolated RNA. The startingmaterial is typically total RNA isolated from a biological sample, suchas a tumor or tumor cell line, and corresponding normal tissue or cellline, respectively. If the source of RNA is a primary tumor, RNA (e.g.,mRNA) can be extracted, for example, from frozen or archivedparaffin-embedded and fixed (e.g., formalin-fixed) tissue samples (e.g.,pathologist-guided tissue core samples).

General methods for RNA extraction are well known in the art and aredisclosed in standard textbooks of molecular biology, including Ausubelet al., ed., Current Protocols in Molecular Biology, John Wiley & Sons,New York 1987-1999. Methods for RNA extraction from paraffin embeddedtissues are disclosed, for example, in Rupp and Locker, Lab Invest.56:A67, (1987); and De Andres et al. Biotechniques 18:42-44, (1995). Inparticular, RNA isolation can be performed using a purification kit, abuffer set and protease from commercial manufacturers, such as Qiagen(Valencia, Calif.), according to the manufacturer's instructions. Forexample, total RNA from cells in culture can be isolated using QiagenRNeasy mini-columns Other commercially available RNA isolation kitsinclude MASTERPURE™ Complete DNA and RNA Purification Kit (Epicentre,Madison, Wis.) and Paraffin Block RNA Isolation Kit (Ambion, Austin,Tex.). Total RNA from tissue samples can be isolated, for example, usingRNA Stat-60 (Tel-Test, Friendswood, Tex.). RNA prepared from a tumor canbe isolated, for example, by cesium chloride density gradientcentrifugation. Additionally, large numbers of tissue samples canreadily be processed using techniques well known to those of skill inthe art, such as, for example, the single-step RNA isolation process ofChomczynski (U.S. Pat. No. 4,843,155). Isolated RNA can be used inhybridization or amplification assays that include, but are not limitedto, PCR analyses and probe arrays. One method for the detection of RNAlevels involves contacting the isolated RNA with a nucleic acid molecule(probe) that can hybridize to the mRNA encoded by the gene beingdetected. The nucleic acid probe can be, for example, a full-lengthcDNA, or a portion thereof, such as an oligonucleotide of at least 7,15, 30, 60, 100, 250, or 500 nucleotides in length and sufficient tospecifically hybridize under stringent conditions to an intrinsic geneof the present disclosure, or any derivative DNA or RNA. Hybridizationof an mRNA with the probe indicates that the intrinsic gene in questionis being expressed. In one embodiment, the mRNA is immobilized on asolid surface and contacted with a probe, for example by running theisolated mRNA on an agarose gel and transferring the mRNA from the gelto a membrane, such as nitrocellulose. In an alternative embodiment, theprobes are immobilized on a solid surface and the mRNA is contacted withthe probes, for example, in an Agilent gene chip array. A skilledartisan can readily adapt known mRNA detection methods for use indetecting the level of expression of the intrinsic genes of the presentdisclosure.

An alternative method for determining the level of intrinsic geneexpression product in a sample involves the process of nucleic acidamplification, for example, by RT-PCR (U.S. Pat. No. 4,683,202), ligasechain reaction (Barany, PNAS USA 88: 189-93, (1991)), self-sustainedsequence replication (Guatelli et al., Proc. Natl. Acad. Sci. USA 87:1874-78, (1990)), transcriptional amplification system (Kwoh et al.,Proc. Natl. Acad. ScL USA 86: 1173-77, (1989)), Q-Beta Replicase(Lizardi et al., Bio/Technology 6:1197, (1988)), rolling circlereplication (U.S. Pat. No. 5,854,033), or any other nucleic acidamplification method, followed by the detection of the amplifiedmolecules using techniques well known to those of skill in the art.These detection schemes are especially useful for the detection ofnucleic acid molecules if such molecules are present in very lownumbers.

In particular aspects of the disclosure, intrinsic gene expression isassessed by quantitative RT-PCR. Numerous different PCR or QPCRprotocols are known in the art and exemplified herein below and can bedirectly applied or adapted for use using the presently-describedcompositions for the detection and/or quantification of the intrinsicgenes listed in Table 1. Generally, in PCR, a target polynucleotidesequence is amplified by reaction with at least one oligonucleotideprimer or pair of oligonucleotide primers. The primer(s) hybridize to acomplementary region of the target nucleic acid and a DNA polymeraseextends the primer(s) to amplify the target sequence. Under conditionssufficient to provide polymerase-based nucleic acid amplificationproducts, a nucleic acid fragment of one size dominates the reactionproducts (the target polynucleotide sequence which is the amplificationproduct). The amplification cycle is repeated to increase theconcentration of the single target polynucleotide sequence. The reactioncan be performed in any thermocycler commonly used for PCR. However,preferred are cyclers with real time fluorescence measurementcapabilities, for example, SMARTCYCLER® (Cepheid, Sunnyvale, Calif.),ABI PRISM 7700® (Applied Biosystems, Foster City, Calif.), ROTOR-GENE™(Corbett Research, Sydney, Australia), LIGHTCYCLER® (Roche DiagnosticsCorp, Indianapolis, Ind.), ICYCLER® (Biorad Laboratories, Hercules,Calif.) and MX4000® (Stratagene, La Jolla, Calif.).

In another embodiment of the disclosure, microarrays are used forexpression profiling. Microarrays are particularly well suited for thispurpose because of the reproducibility between different experiments.DNA microarrays provide one method for the simultaneous measurement ofthe expression levels of large numbers of genes. Each array consists ofa reproducible pattern of capture probes attached to a solid support.Labeled RNA or DNA is hybridized to complementary probes on the arrayand then detected by laser scanning. Hybridization intensities for eachprobe on the array are determined and converted to a quantitative valuerepresenting relative gene expression levels. See, for example, U.S.Pat. Nos. 6,040,138, 5,800,992 and 6,020,135, 6,033,860, and 6,344,316.High-density oligonucleotide arrays are particularly useful fordetermining the gene expression profile for a large number of RNAs in asample.

In a preferred embodiment, the nCounter® Analysis system is used todetect intrinsic gene expression. The basis of the nCounter® Analysissystem is the unique code assigned to each nucleic acid target to beassayed (International Patent Application No. PCT/US2008/059959 andGeiss et al. Nature Biotechnology. 2008. 26(3): 317-325; the contents ofwhich are each incorporated herein by reference in their entireties).The code is composed of an ordered series of colored fluorescent spotswhich create a unique barcode for each target to be assayed. A pair ofprobes is designed for each DNA or RNA target, a biotinylated captureprobe and a reporter probe carrying the fluorescent barcode. This systemis also referred to, herein, as the nanoreporter code system.

Specific reporter and capture probes are synthesized for each target.Briefly, sequence-specific DNA oligonucleotide probes are attached tocode-specific reporter molecules. Capture probes are made by ligating asecond sequence-specific DNA oligonucleotide for each target to auniversal oligonucleotide containing biotin. Reporter and capture probesare all pooled into a single hybridization mixture, the “probe library”.

The relative abundance of each target is measured in a singlemultiplexed hybridization reaction. The sample is combined with theprobe library, and hybridization occurs in solution. Afterhybridization, the tripartite hybridized complexes are purified in atwo-step procedure using magnetic beads linked to oligonucleotidescomplementary to universal sequences present on the capture and reporterprobes. This dual purification process allows the hybridization reactionto be driven to completion with a large excess of target-specificprobes, as they are ultimately removed, and, thus, do not interfere withbinding and imaging of the sample. All post hybridization steps arehandled robotically on a custom liquid-handling robot (Prep Station,NanoString Technologies).

Purified reactions are deposited by the Prep Station into individualflow cells of a sample cartridge, bound to a streptavidin-coated surfacevia the capture probe, electrophoresed to elongate the reporter probes,and immobilized. After processing, the sample cartridge is transferredto a fully automated imaging and data collection device (DigitalAnalyzer, NanoString Technlogies). The expression level of a target ismeasured by imaging each sample and counting the number of times thecode for that target is detected. For each sample, typically 600fields-of-view (FOV) are imaged (1376×1024 pixels) representingapproximately 10 mm² of the binding surface. Typical imaging density is100-1200 counted reporters per field of view depending on the degree ofmultiplexing, the amount of sample input, and overall target abundance.Data is output in simple spreadsheet format listing the number of countsper target, per sample.

This system can be used along with nanoreporters. Additional disclosureregarding nanoreporters can be found in International Publication No. WO07/076,129 and WO 07/076,132, the contents of which are incorporatedherein in their entireties. Further, the term nucleic acid probes andnanoreporters can include the rationally designed (e.g. syntheticsequences) described in International Publication No. WO 2010/019826,incorporated herein by reference in its entirety.

Data Processing

It is often useful to pre-process gene expression data, for example, byaddressing missing data, translation, scaling, normalization, weighting,etc. Multivariate projection methods, such as principal componentanalysis (PCA) and partial least squares analysis (PLS), are so-calledscaling sensitive methods. By using prior knowledge and experience aboutthe type of data studied, the quality of the data prior to multivariatemodeling can be enhanced by scaling and/or weighting. Adequate scalingand/or weighting can reveal important and interesting variation hiddenwithin the data, and therefore make subsequent multivariate modelingmore efficient. Scaling and weighting may be used to place the data inthe correct metric, based on knowledge and experience of the studiedsystem, and therefore reveal patterns already inherently present in thedata.

If possible, missing data, for example gaps in column values, should beavoided. However, if necessary, such missing data may be replaced or“filled” with, for example, the mean value of a column (“mean fill”); arandom value (“random fill”); or a value based on a principal componentanalysis (“principal component fill”).

“Translation” of the descriptor coordinate axes can be useful. Examplesof such translation include normalization and mean centering.“Normalization” may be used to remove sample-to-sample variation. Formicroarray data, the process of normalization aims to remove systematicerrors by balancing the fluorescence intensities of the two labelingdyes. The dye bias can come from various sources including differencesin dye labeling efficiencies, heat and light sensitivities, as well asscanner settings for scanning two channels. Some commonly used methodsfor calculating normalization factor include: (i) global normalizationthat uses all genes on the array; (ii) housekeeping genes normalizationthat uses constantly expressed housekeeping/invariant genes; and (iii)internal controls normalization that uses known amount of exogenouscontrol genes added during hybridization (Quackenbush Nat. Genet. 32(Suppl.), 496-501 (2002)). In one embodiment, the intrinsic genesdisclosed herein can be normalized to control housekeeping genes. Forexample, the housekeeping genes described in U.S. Patent Publication2008/0032293, which is herein incorporated by reference in its entirety,can be used for normalization. Exemplary housekeeping genes includeMRPL19, PSMC4, SF3A1, PUM1, ACTB, GAPD, GUSB, RPLPO, and TFRC. It willbe understood by one of skill in the art that the methods disclosedherein are not bound by normalization to any particular housekeepinggenes, and that any suitable housekeeping gene(s) known in the art canbe used.

Many normalization approaches are possible, and they can often beapplied at any of several points in the analysis. In one embodiment,microarray data is normalized using the LOWESS method, which is a globallocally weighted scatter plot smoothing normalization function. Inanother embodiment, qPCR data is normalized to the geometric mean of setof multiple housekeeping genes.

“Mean centering” may also be used to simplify interpretation. Usually,for each descriptor, the average value of that descriptor for allsamples is subtracted. In this way, the mean of a descriptor coincideswith the origin, and all descriptors are “centered” at zero. In “unitvariance scaling,” data can be scaled to equal variance. Usually, thevalue of each descriptor is scaled by 1/StDev, where StDev is thestandard deviation for that descriptor for all samples. “Pareto scaling”is, in some sense, intermediate between mean centering and unit variancescaling. In pareto scaling, the value of each descriptor is scaled byUsqrt(StDev), where StDev is the standard deviation for that descriptorfor all samples. In this way, each descriptor has a variance numericallyequal to its initial standard deviation. The pareto scaling may beperformed, for example, on raw data or mean centered data.

“Logarithmic scaling” may be used to assist interpretation when datahave a positive skew and/or when data spans a large range, e.g., severalorders of magnitude. Usually, for each descriptor, the value is replacedby the logarithm of that value. In “equal range scaling,” eachdescriptor is divided by the range of that descriptor for all samples.In this way, all descriptors have the same range, that is, 1. However,this method is sensitive to presence of outlier points. In“autoscaling,” each data vector is mean centered and unit variancescaled. This technique is a very useful because each descriptor is thenweighted equally, and large and small values are treated with equalemphasis. This can be important for genes expressed at very low, butstill detectable, levels.

In one embodiment, data is collected for one or more test samples andclassified using the PAM50 classification model described herein. Whencomparing data from multiple analyses (e.g., comparing expressionprofiles for one or more test samples to the centroids constructed fromsamples collected and analyzed in an independent study), it will benecessary to normalize data across these data sets. In one embodiment,Distance Weighted Discrimination (DWD) is used to combine these datasets together (Benito et al. (2004) Bioinformatics 20(1): 105-114,incorporated by reference herein in its entirety). DWD is a multivariateanalysis tool that is able to identify systematic biases present inseparate data sets and then make a global adjustment to compensate forthese biases; in essence, each separate data set is a multi-dimensionalcloud of data points, and DWD takes two points clouds and shifts onesuch that it more optimally overlaps the other.

The methods described herein may be implemented and/or the resultsrecorded using any device capable of implementing the methods and/orrecording the results. Examples of devices that may be used include butare not limited to electronic computational devices, including computersof all types. When the methods described herein are implemented and/orrecorded in a computer, the computer program that may be used toconfigure the computer to carry out the steps of the methods may becontained in any computer readable medium capable of containing thecomputer program. Examples of computer readable medium that may be usedinclude but are not limited to diskettes, CD-ROMs, DVDs, ROM, RAM, andother memory and computer storage devices. The computer program that maybe used to configure the computer to carry out the steps of the methodsand/or record the results may also be provided over an electronicnetwork, for example, over the internet, an intranet, or other network.

Calculation of Risk of Relapse

Provided herein are methods for predicting breast cancer outcome withinthe context of the intrinsic subtype and optionally other clinicalvariables. Outcome may refer to overall or disease-specific survival,event-free survival, or outcome in response to a particular treatment ortherapy. In particular, the methods may be used to predict thelikelihood of long-term, disease-free survival. “Predicting thelikelihood of survival of a breast cancer patient” is intended to assessthe risk that a patient will die as a result of the underlying breastcancer. “Long-term, disease-free survival” is intended to mean that thepatient does not die from or suffer a recurrence of the underlyingbreast cancer within a period of at least five years, or at least ten ormore years, following initial diagnosis or treatment.

In one embodiment, outcome is predicted based on classification of asubject according to subtype. This classification is based on expressionprofiling using the list of intrinsic genes listed in Table 1. Inaddition to providing a subtype assignment, the PAM50 bioinformaticsmodel provides a measurement of the similarity of a test sample to allfour subtypes which is translated into a Risk of Relapse (ROR) scorethat can be used in any patient population regardless of disease statusand treatment options. The intrinsic subtypes and ROR also have value inthe prediction of pathological complete response in women treated with,for example, neoadjuvant taxane and anthracycline chemotherapy (Rouzieret al., J Clin Oncol 23:8331-9 (2005), incorporated herein by referencein its entirety). Thus, in various embodiments of the presentdisclosure, a risk of relapse (ROR) model is used to predict outcome.Using these risk models, subjects can be stratified into low, medium,and high risk of relapse groups. Calculation of ROR can provideprognostic information to guide treatment decisions and/or monitorresponse to therapy.

In some embodiments described herein, the prognostic performance of thePAM50-defined intrinsic subtypes and/or other clinical parameters isassessed utilizing a Cox Proportional Hazards Model Analysis, which is aregression method for survival data that provides an estimate of thehazard ratio and its confidence interval. The Cox model is awell-recognized statistical technique for exploring the relationshipbetween the survival of a patient and particular variables. Thisstatistical method permits estimation of the hazard (i.e., risk) ofindividuals given their prognostic variables (e.g., intrinsic geneexpression profile with or without additional clinical factors, asdescribed herein). The “hazard ratio” is the risk of death at any giventime point for patients displaying particular prognostic variables. Seegenerally Spruance et al., Antimicrob. Agents & Chemo. 48:2787-92(2004).

The PAM50 classification model described herein can be trained for riskof relapse using subtype distances (or correlations) alone, or usingsubtype distances with clinical variables as discussed supra. In oneembodiment, the risk score for a test sample is calculated usingintrinsic subtype distances alone using the following equation:

ROR=0.05*Basal+0.11*Her2+−0.25*LumA+0.07*LumB+−0.11*Normal, where thevariables “Basal,” “Her2,” “LumA,” “LumB,” and “Normal” are thedistances to the centroid for each respective classifier when theexpression profile from a test sample is compared to centroidsconstructed using the gene expression data deposited with the GeneExpression Omnibus (GEO).

Risk score can also be calculated using a combination of breast cancersubtype and the clinical variables tumor size (T) and lymph nodes status(N) using the following equation: ROR(full)=0.05*Basal+0.1*Her2+−0.19*LumA+0.05*LumB+−0.09*Normal+0.16*T+0.08*N,again when comparing test expression profiles to centroids constructedusing the gene expression data deposited with GEO as accession numberGSE2845.

In yet another embodiment, risk score for a test sample is calculatedusing intrinsic subtype distances alone using the following equation:

ROR-S=0.05*Basal+0.12*Her2+−0.34*LumA+0.0.23*LumB, where the variables“Basal,” “Her2,” “LumA,” and “LumB” are as described supra and the testexpression profiles are compared to centroids constructed using the geneexpression data deposited with GEO as accession number GSE2845. In yetanother embodiment, risk score can also be calculated using acombination of breast cancer subtype and the clinical variable tumorsize (T) using the following equation (where the variables are asdescribed supra): ROR-C=0.05*Basal+0.11*Her2+−0.23*LumA+0.09*LumB+0.17*T.

In yet another embodiment, risk score for a test sample is calculatedusing intrinsic subtype distances in combination with the proliferationsignature (“Prolif”) using the following equation:

ROR-P=−0.001*Basal+0.7*Her2+−0.95*LumA+0.49*LumB+0.34*Prolif, where thevariables “Basal,” “Her2,” “LumA,” “LumB” and “Prolif” are as describedsupra and the test expression profiles are compared to centroidsconstructed using the gene expression data deposited with GEO asaccession number GSE2845. In yet another embodiment, risk score can alsobe calculated using a combination of breast cancer subtype,proliferation signature and the clinical variable tumor size (T) usingthe following equation (where the variables are as described supra):ROR-PT=−0.001*Basal+0.73*Her2+−0.9*LumA+0.05*LumB+0.13*T+0.33*Prolif.

Detection of Subtypes

Immunohistochemistry for estrogen (ER), progesterone (PgR), HER2, andKi67 was performed concurrently on serial sections with the standardstreptavidin-biotin complex method with 3,3′-diaminobenzidine as thechromogen. Staining for ER, PgR, and HER2 interpretation can beperformed as described previously (Cheang et al., Clin Cancer Res. 2008;14(5):1368-1376.), however any method known in the art may be used.

For example, a Ki67 antibody (clone SP6; ThermoScientific, Fremont,Calif.) can be applied at a 1:200 dilution for 32 minutes, by followingthe Ventana Benchmark automated immunostainer (Ventana, Tucson Ariz.)standard Cell Conditioner 1 (CC1, a proprietary buffer) protocol at 98°C. for 30 minutes. An ER antibody (clone SP1; ThermoFisher Scientific,Fremont Calif.) can be used at 1:250 dilution with 10-minute incubation,after an 8-minute microwave antigen retrieval in 10 mM sodium citrate(pH 6.0). Ready-to-use PR antibody (clone 1E2; Ventana) can be used byfollowing the CC1 protocol as above. HER2 staining can be done with aSP3 antibody (ThermoFisher Scientific) at a 1:100 dilution after antigenretrieval in 0.05 M Tris buffer (pH 10.0) with heating to 95° C. in asteamer for 30 minutes. For HER2 fluorescent in situ hybridization(FISH) assay, slides can be hybridized with probes to LSI(locus-specific identifier) HER2/neu and to centromere 17 by use of thePathVysion HER-2 DNA Probe kit (Abbott Molecular, Abbott Park, Ill.)according to manufacturer's instructions, with modifications topretreatment and hybridization as previously described (Brown L A,Irving J, Parker R, et al. Amplification of EMSY, a novel oncogene on11q13, in high grade ovarian surface epithelial carcinomas. GynecolOncol. 2006; 100(2):264-270). Slides can then be counterstained with4′,6-diamidino-2-phenylindole, stained material was visualized on aZeiss Axioplan epifluorescent microscope, and signals were analyzed witha Metafer image acquisition system (Metasystems, Altlussheim, Germany)Biomarker expression from immunohistochemistry assays can then be scoredby two pathologists, who were blinded to the clinicopathologicalcharacteristics and outcome and who used previously established andpublished criteria for biomarker expression levels that had beendeveloped on other breast cancer cohorts.

Tumors were considered positive for ER or PR if immunostaining wasobserved in more than 1% of tumor nuclei, as described previously.Tumors were considered positive for HER2 if immunostaining was scored as3+ according to HercepTest criteria, with an amplification ratio forfluorescent in situ hybridization of 2.0 or more being the cut pointthat was used to segregate immunohistochemistry equivocal tumors (scoredas 2+) (Yaziji, et al., JAMA, 291(16):1972-1977 (2004)). Ki67 wasvisually scored for percentage of tumor cell nuclei with positiveimmunostaining above the background level by two pathologists.

Other methods can also be used to detect subtypes. These techniquesinclude ELISA, Western blots, Northern blots, or FACS analysis.

Kits

The present disclosure also describes kits useful for classifying breastcancer intrinsic subtypes and/or providing prognostic information toidentify breast cancers that are more responsive to anthracyclines.These kits comprise a set of capture probes and/or primers specific forthe intrinsic genes listed in Table 1. The kit may further comprise acomputer readable medium.

In one embodiment of the present disclosure, the capture probes areimmobilized on an array. By “array” is intended a solid support or asubstrate with peptide or nucleic acid probes attached to the support orsubstrate. Arrays typically comprise a plurality of different captureprobes that are coupled to a surface of a substrate in different, knownlocations. The arrays of the disclosure comprise a substrate having aplurality of capture probes that can specifically bind an intrinsic geneexpression product. The number of capture probes on the substrate varieswith the purpose for which the array is intended. The arrays may below-density arrays or high-density arrays and may contain 4 or more, 8or more, 12 or more, 16 or more, 32 or more addresses, but willminimally comprise capture probes for the 50 intrinsic genes listed inTable 1.

Techniques for the synthesis of these arrays using mechanical synthesismethods are described in, e.g., U.S. Pat. No. 5,384,261, incorporatedherein by reference in its entirety for all purposes. The array may befabricated on a surface of virtually any shape or even a multiplicity ofsurfaces. Arrays may be probes (e.g., nucleic-acid binding probes) onbeads, gels, polymeric surfaces, fibers such as fiber optics, glass orany other appropriate substrate, see U.S. Pat. Nos. 5,770,358,5,789,162, 5,708,153, 6,040,193 and 5,800,992, each of which is herebyincorporated in its entirety for all purposes. Arrays may be packaged insuch a manner as to allow for diagnostics or other manipulation on thedevice. See, for example, U.S. Pat. Nos. 5,856,174 and 5,922,591 hereinincorporated by reference.

In another embodiment, the kit comprises a set of oligonucleotideprimers sufficient for the detection and/or quantitation of each of theintrinsic genes listed in Table 1. The oligonucleotide primers may beprovided in a lyophilized or reconstituted form, or may be provided as aset of nucleotide sequences. In one embodiment, the primers are providedin a microplate format, where each primer set occupies a well (ormultiple wells, as in the case of replicates) in the microplate. Themicroplate may further comprise primers sufficient for the detection ofone or more housekeeping genes as discussed infra. The kit may furthercomprise reagents and instructions sufficient for the amplification ofexpression products from the genes listed in Table 1.

In order to facilitate ready access, e.g., for comparison, review,recovery, and/or modification, the molecular signatures/expressionprofiles are typically recorded in a database. Most typically, thedatabase is a relational database accessible by a computational device,although other formats, e.g., manually accessible indexed files ofexpression profiles as photographs, analogue or digital imagingreadouts, spreadsheets, etc. can be used. Regardless of whether theexpression patterns initially recorded are analog or digital in nature,the expression patterns, expression profiles (collective expressionpatterns), and molecular signatures (correlated expression patterns) arestored digitally and accessed via a database. Typically, the database iscompiled and maintained at a central facility, with access beingavailable locally and/or remotely.

EXAMPLES Example 1 Proliferation Signature Predicts Response to WeeklyAdjuvant Paclitaxel in Breast Cancer

Patients, Samples and Clinical Data

The GEICAM/9906 trial was a prospective adjuvant multi-center randomizedphase III study (n=1,246 subjects) comparing six cycles of Fluorouracil,Epirubicin, and Cyclophosphamide Alone (FEC, control arm) versus fourcycles of FEC followed by eight weekly cycles of paclitaxel at 100 mg/m2(FEC-P, experimental arm) in node-positive breast cancers. The primaryendpoint of the GEICAM/9906 clinical trial was disease-free survival.Secondary endpoints were: (a) overall survival; (b) prognostic andpredictive value of molecular/genomic markers and (c) safety. The studywas performed in accordance with the Declaration of Helsinki, approvedby the ethics committees at all participating institutions and theSpanish Health Authority, and it was registered atwww.clinicaltrials.gov (identifier code: NCT00129922). All patientsprovided written informed consent for therapy randomization andmolecular analyses. Details of the study design and patients'characteristics have been previously reported (Martin et al., J NatlCancer Inst 100: 805-814, 2008; Martin et al., Breast Cancer Res Treat123:149-157, 2010). Formalin-fixed, paraffin-embedded tumor blocks wereavailable on 825 patients. H&E sections from each FFPE tissue block werereviewed by a pathologist at GEICAM's central laboratory. At least twotumor cores were extracted from areas containing representative invasivebreast carcinoma using a 1 mm core punch. A detailed protocol of RNAextraction from FFPE tissue, and the RT-qPCR PAM50 assay have beenpreviously described (Parker et al., J Clin Oncol 27:1160-1167, 2009).

PAM50 Subtype Classification

Samples were gene expression profiled using the previously describedRT-qPCR assay and analyzed using the clinical algorithm for subtypeprediction (Parker et al., J Clin Oncol 27:1160-1167, 2009; ArupLaboratories: PAM50 Breast Cancer Intrinsic Classifier Information.http://www.aruplab.com/Lab-Tests/General-Oncology/PAM50/index jsp).Samples were assigned into the following intrinsic subtype categories:Luminal A, Luminal B, HER2-enriched, Basal-like and Normal-like. Samplesclassified as Normal-like were excluded from further analyses due to thepotential for misclassification resulting from normal breast tissue orstroma contamination within the tumor specimen (Elloumi et al., BMC MedGenomics 4:54, 2011). In addition to the subtype classification, a PAM50proliferation score was calculated using the previously described11-gene signature (BIRC5, CCNB1, CDC20, CDCA1, CEP55, KNTC2, MKI67,PTTG1, RRM2, TYMS, UBE2C) (Nielsen et al., Clin Cancer Res16(21):5222-32, 2010). The significance of proliferation was evaluatedusing a classification into quartiles, and using the proliferationscores as a continuous variable.

Immunohistochemical (IHC) Ki-67 Quantification

Ki-67 status was assessed in a central laboratory on paraffin sectionsby an immunohistochemical method using Clone MIB 1 antibody(DakoCytomation, Glostrup, Denmark). Ki67 score was defined as thepercentage of total number of tumor cells with nuclear staining.

Statistical Analysis

This analysis has a prospective-retrospective design (retrospectiveanalysis of a randomized prospective trial) with pre-specified studyobjectives and pre-specified laboratory assays in a predefinedpopulation. The primary pre-specified objectives of the study were todetermine whether the PAM50 subtypes, and/or the PAM50 proliferationscore, were associated with OS and/or predictive of paclitaxel benefit.The Kaplan-Meier method was used to estimate overall survival (OS), andthe log-rank test was used to compare OS between groups. Univariate andmultivariate Cox proportional hazard models were used to examine theassociation of each variable with survival, and interaction betweentreatment and PAM50 subtype and proliferation. The results are presentedin accordance with reporting recommendations for tumor marker prognosticstudies (REMARK) criteria (McShane et al., J Clin Oncol 23:9067-9072,2005).

Patient Demographics

Tumor blocks were available for 825 patients, and PAM50 genomicprofiling was successful in 820 samples (99.4%) of patients whose signedinformed consent was obtained (FIG. 5), which represents 66% of theoriginal 1,246 sample set of the GEICAM/9906 trial (Martin et al., JNatl Cancer Inst 100: 805-814, 2008). The demographic and prognosticfeatures, as well as the 10-year OS of patients included in thissub-study were similar to those of the overall study population. Thedistribution of the patient's clinical-pathological characteristicsincluded in this study is shown in Table 3.

TABLE 3 Patient Clinical-Pathological Characteristics. Arm Arm FEC FEC-PTotal Sample Variables N = 417 (%) N = 403 (%) N = 820 (%) Age (y)   <50197 (47.2) 197 (48.9) 394 (48.0) >=50 220 (52.8) 206 (51.1) 426 (52.0)Menopausal Status Pre 223 (53.5) 220 (54.6) 443 (54.0) Post 194 (46.5)183 (45.4) 377 (46.0) Nodal status 1-3 257 (64.0) 250 (62.0) 507 (61.8)   >4 160 (38.4) 153 (38.0) 313 (38.2) Histological grade G1  54 (12.9)54 (13.4) 108 (13.2) G2 175 (42.0) 162 (40.2) 337 (41.1) G3 160 (38.4)156 (38.7) 316 (38.5) GX 28 (6.7) 31 (7.7) 59 (7.2) Primary Tumor SizeT1 158 (37.9) 184 (45.7) 342 (41.7) T2 236 (56.6) 196 (48.6) 432 (52.7)T3 23 (5.5) 23 (5.7) 46 (5.6) Estrogen receptor Negative  95 (22.8)  77(19.1) 172 (21.0) Positive 321 (77.0) 324 (80.4) 645 (78.7) Progesteronereceptor Negative 143 (34.3) 103 (25.6) 246 (30.0) Positive 272 (65.2)298 (73.9) 570 (70.0) Her2 status Negative 369 (88.5) 329 (81.6) 698(85.1) Positive  45 (10.8)  71 (17.6) 116 (14.1) Ki-67-IHC Low (<=13%)278 (66.7) 279 (62.9) 557 (67.9) High (>13%) 132 (31.7) 111 (27.5) 243(29.6) Subtype_Prediction Luminal A 129 (30.9) 149 (37.0) 278 (33.9)Luminal B 146 (35.0) 118 (29.3) 264 (32.1) Her2-enriched  85 (20.4)  91(22.6) 176 (21.4) Basal-like  45 (10.8) 26 (6.4) 71 (8.7) Normal-like 12(2.9) 19 (4.7) 31 (3.9) 11-GeneProliferation Low (lowest quartile,<=3.9)  98 (23.5) 110 (27.3) 208 (25.4) High (>3.9) 319 (76.5) 293(72.7) 612 (74.6) 11-GeneProliferation Low (lowest tertile, <=4.4) 128(30.7) 153 (38.0) 281 (34.3) High (>4.4) 289 (69.3) 250 (62.0) 539(65.7)

Overall Survival Outcomes

With a median follow up of 8.7 years, OS of the FEC-P arm wassignificantly superior compared to the FEC arm (hazard ratio [HR] for Oδ 0.693, 95% confidence interval [CI] 0.693-0.927, p=0.013) with 10-yearOS rates in the FEC and FEC-P arms of 70.90% and 78.44%, respectively(FIG. 1A). Univariate analysis revealed the following variablessignificantly associated with OS: menopausal status, nodal status,histopathological grade, tumor size, estrogen receptor (ER) status,progesterone receptor (PR) status, Ki67, PAM50 subtypes andproliferation score. As expected, the PAM50 Luminal A tumors showed thebest outcome (84.04% OS at 10 years), followed by Luminal B (70.75%),Basal-like (70.42%) and HER2-enriched (65.19%) (FIG. 1B). Compared toLuminal A tumors, Luminal B, HER2-enriched and Basal-like tumors showeda HR for OS of 1.99 (1.35-2.97), 2.60 (1.52-4.40) and 2.62 (1.74-3.95),respectively. Interestingly, although the proliferation score and Ki-67were found significantly associated with OS (FIG. 2), the separation ofthe curves by quartile distribution was found to be greater using theproliferation score compared to Ki-67 by IHC.

Among the variables evaluated, tumor size, nodal status andproliferation signature were found to be independent predictors of OS inmultivariate analysis with treatment arm showing a tendency forsignificance (p=0.067). (Table 4). Of note, Ki-67 by IHC andhistological grade were superseded by the information provided by theproliferation signature.

TABLE 4 Prediction Variables Variables p-value HR CI 95% Treatment Arm(FEC-P as reference) 0.067 1.323 0.981-1.784 FEC Age (<50 as reference)0.551 0.839 0.471-1.495 >=50 Menopausal status (pre as reference) 0.1291.562 0.878-2.778 Postmenopausal Primary tumor size (T1 as reference)0.003 T2 0.009 1.572 1.120-2.206 T3 0.002 2.464 1.412-4.302 Nodal status(1-3 as reference) <0.0001 1.816 1.347-2.449 4+ ER (positive asreference) 0.634 1.105 0.732-1.670 Negative PR (positive as reference)0.183 1.302 0.883-1.919 Negative Her2 (positive as reference) 0.7980.949 0.636-1.417 Negative 11-GeneProliferation (low, first quartile,0.013 1.765 1.130-2.758 as reference) High Subtype PAM50 (luminal A asreference) 0.138 1.361 0.906-2.044 Rest

Effect of Paclitaxel in the PAM50 Subtypes and Proliferation Score

Kaplan-Meier plots for OS comparing treatment with FEC-P vs. FEC wereevaluated in each group category defined by the PAM50 assay. Theindividual PAM50 subtypes were not found predictive of paclitaxelefficacy. On the other hand, a benefit from paclitaxel was observed inpatients whose tumors had a low proliferation score (HR=0.23 within thelowest quartile, CI 0.09-0.57, p<0.001), showing an improvement of the10-year OS from 71.24% to 94.42% (FIG. 3A). The PAM50 subtypedistribution within the low quartile group (n=181) of the proliferationscore was as follows: Luminal A 76.24%, Luminal B 6.63%, HER2-enriched17.13% and Basal-like 0%. No benefit of paclitaxel was observed withinthe other proliferation score groups when evaluated individually, orwhen combined into one group (FIG. 3B), where the univariate HR for OSwas 0.85 (CI 0.62-1.16). Similar data was obtained when theproliferation score was evaluated using tertiles.

Relationship of the Proliferation Score and Paclitaxel Treatment Benefit

To test the statistical validity of the relationship between themagnitude of paclitaxel benefit and the proliferation score, a formaltest of statistical interaction between proliferation score andpaclitaxel treatment was performed. In a multivariate analysis of Coxmodels containing paclitaxel treatment and proliferation score, thetests for interaction were found to be statistically significant(p=0.006 as a continuous variable; p=0.019 as group categories usingquartile expression). In addition, a multivariate model for theinteraction between Proliferation Score and paclitaxel treatment thatwas adjusted for all clinical-pathological variables showed continuedsignificance of the interaction between proliferation score andpaclitaxel treatment (Table 5).

TABLE 5 Interaction of Paclitaxel Treatment with the proliferationsignature in a Multivariate Cox Proportional Hazard Model Variablesp-value HR CI 95% Treatment Arm (FEC-P as reference) 0.008 3.4571.374-8.696 FEC Age (<50 as reference) 0.545 0.833 0.461-1.506 >=50Menopausal status (pre as reference) 0.107 1.630 0.901-2.951Postmenopausal Primary tumor size (T1 as reference) 0.004 T2 0.018 1.5151.074-2.136 T3 0.002 2.586 1.435-4.659 Histological grade (G1 asreference) 0.125 G2 0.069 1.875 0.951-3.694 G3 0.057 1.977 0.980-3.989GX 0.852 1.092 0.436-2.735 Nodal status (1-3 as reference) 0.001 1.6481.217-2.230 4+ ER (positive as reference) 0.980 1.006 0.630-1.608Negative PR (positive as reference) 0.143 1.347 0.904-2.007 NegativeHer2 (positive as reference) 0.726 1.080 0.703-1.659 Negative Ki-67(continuous) 0.710 1.002 0.991-1.013 11-GeneProliferation (low asreference) 0.008 3.234 1.354-7.723 High 11-GeneProliferation*arm 0.0310.342 0.129-0.908 Subtype PAM50 (luminal A as reference) 0.621 Luminal B0.431 1.199 0.763-1.886 Her2-enriched 0.128 1.478 0.894-2.445 Basal-like0.633 1.194 0.576-2.475 Normal-like 0.584 1.348 0.463-3.928

To explore the degree of benefit from paclitaxel treatment inrelationship to the Proliferation score as a continuous function, thelikelihood of OS was fit as a linear function of the Proliferation scorefor both arms. As expected, the magnitude of paclitaxel benefit appearedto increase continuously as the Proliferation score decreased (FIG. 4and Table 6).

TABLE 6 Hazard Ratios of FEC-T v. FEC within Low Risk Groups DFS OSUnivariate Univariate Variable Criteria #Pts HR p-value HR p-value ARMFEC-T v. FEC Low (cutoff 20%) 163/817 0.431 0.016 0.188 0.0028 ARM FEC-Tv. FEC Low (cutoff 25%) 204/817 0.531 0.037 0.24 0.0021 ARM FEC-T v. FECLow (cutoff 33%) 272/817 0.61 0.044 0.427 0.01 ARM FEC-T v. FEC Low(cutoff 50%) 408/817 0.695 0.048 0.584 0.02

Paclitaxel Benefit and Clinical-Pathological Variables

In order to identify other predictors of response to weekly paclitaxel,the interaction of paclitaxel treatment with clinical-pathologicalvariables (age, menopausal status, histological grade, tumor size, ER[IHC] status, PR [IHC] status, Ki-67 ([IHC] and HER2 status [IHC/CISH])was also evaluated. No significant interactions between these variablesand treatment were found.

Discussion

In the era of personalized medicine, new tools that may be able toprovide clinically useful prognostic and predictive information forbreast cancer patients are needed. Two genomic assays (OncotypeDX andMammaprint) provide prognostic information in early breast cancer (Vande Vijver et al., N Engl J Med 347:1999-2009, 2002; Buyse et al., J NatlCancer Inst 98: 1183-92, 2006; Paik et al., N Engl J Med 351:2817-26,2004), and OncotypeDX provides predictive information of benefit fromadjuvant chemotherapy (cyclophosphamide-methotrexate-fluorouracil (CMF)or cyclophosphamide-doxorubicin(Adriamycin®)-fluorouracil (CAF)) inER-positive disease (Paik et al., J Clin Oncol 24:3726-34, 2006; Albainet al., Lancet Oncol 11: 55-65, 2010). However, the ability of these andother assays, to predict treatment benefit to modern taxane regimens,and/or the benefit to specific drugs, is unclear.

It has been previously reported that the benefit of adding weeklyadjuvant paclitaxel to anthracycline-based chemotherapy is small (DeLaurentiis et al., J Clin Oncol 26:44-53, 2008; Nowak et al., LancetOncol 5: 372-80, 2004; Tang, Cancer Investigation 27:489-495, 2009; Briaet al., Cancer 106: 2337-2344, 2006). Thus, identification of whichpatients might benefit the most from this drug and schedule seemsjustified. Traditional clinical-pathological parameters (i.e. age, tumorsize, number of positive nodes, ER status, PR status, and HER2 status)and the PAM50 intrinsic subtypes were not found to be predictive ofadjuvant paclitaxel efficacy.

A measure of proliferation is an important component of tests used forprognosis, especially in early stage ER-positive breast cancer.Proliferation is also incorporated into histological grading, either bycounting mitotic figures (i.e. modified Nottingham-Bloom-Richardsonscore) or by developing a mitotic index using a cell cycle regulatedbiomarker such as Ki-67 (Simpson et al., J Clin Oncol. 18(10):2059-69,2000; Meyer et al., Mod Pathol. 2005 August; 18(8):1067-78. Erratum in:Mod Pathol 18(12):1649, 2005; Dowsett et al., J Natl Cancer Inst99(2):167-70, 2007). In this study, it was found that the proliferationscore signature, which is the average expression value of 11proliferation-related genes, was predictive for benefit of weeklypaclitaxel in the adjuvant setting. Although no pre-specified cutoffs ofthis signature were tested in the GEICAM/9906 trial here, the HR for OSin the low quartile group was noteworthy (HR=0.232, p=0.002). Inaddition, the test of interaction between paclitaxel treatment andProliferation score was statistically significant, even when all otherclinical-pathological variables were considered. Interestingly, theproliferation-related biomarker, Ki-67 by IHC, did not predictpaclitaxel benefit despite being evaluated at a central pathologylaboratory, while the 11-gene proliferation score was significant.

What is claimed is:
 1. A method of treating breast cancer in a subjectin need thereof comprising: (a) providing a sample from the subject; (b)determining the expression of at least one gene of Table 1 in thesample; (c) determining a proliferation signature based on theexpression of said at least one gene in the sample; and (d)administering a breast cancer treatment to the subject, wherein if thesample is classified as having a low proliferation signature, thesubject is subjected to a breast cancer treatment comprising a taxane ortaxane derivative, administered weekly, and wherein if the sample isclassified as not having a low proliferation signature, the subject issubjected to a breast cancer treatment not comprising a taxane or taxanederivative, administered weekly, thereby treating breast cancer in thesubject.
 2. A method of screening for the likelihood of theeffectiveness of a breast cancer treatment comprising a taxane or ataxane derivative, administered weekly, in a subject in need thereofcomprising: (a) providing a sample from the subject; (b) determining theexpression of at least one gene of Table 1 in the sample; and (c)determining a proliferation signature based on the expression of said atleast one gene in the sample; wherein if the sample is classified ashaving a low proliferation signature, the breast cancer treatmentcomprising the taxane or taxane derivative, administered weekly, is morelikely to be effective in the subject.
 3. The method of claim 1,comprising determining the expression of at least one gene selected fromANLN, BIRC5, CCNB1, CCNE1, CDC20, CDC6, CDCA1, CENPF, CEP55, EXO1,KIF2C, KNTC2, MELK, MKI67, MYBL2, ORC6L, PTTG1, RRM2, TYMS, UBE2C andUBE2T.
 4. The method of claim 1, comprising determining the expressionof each of the genes selected from ANLN, BIRC5, CCNB1, CCNE1, CDC20,CDC6, CDCA1, CENPF, CEP55, EXO1, KIF2C, KNTC2, MELK, MKI67, MYBL2,ORC6L, PTTG1, RRM2, TYMS, UBE2C and UBE2T.
 5. The method of claim 1,comprising determining the expression of at least one gene selected fromANLN, CCNE1, CDC20, CDC6, CDCA1, CENPF, CEP55, EXO1, KIF2C, KNTC2, MELK,MKI67, ORC6L, PTTG1, RRM2, TYMS, UBE2C and UBE2T.
 6. The method of claim1, comprising determining the expression of each of the genes selectedfrom ANLN, CCNE1, CDC20, CDC6, CDCA1, CENPF, CEP55, EXO1, KIF2C, KNTC2,MELK, MKI67, ORC6L, PTTG1, RRM2, TYMS, UBE2C and UBE2T.
 7. The method ofclaim 1, comprising determining the expression of at least one geneselected from BIRC5, CCNB1, CDC20, CDCA1/NUF2, CEP55, KNTC2/NDC80,MKI67, PTTG1, RRM2, TYMS and UBE2C.
 8. The method of claim 1, comprisingdetermining the expression of each of the genes selected from BIRC5,CCNB1, CDC20, CDCA1/NUF2, CEP55, KNTC2/NDC80, MKI67, PTTG1, RRM2, TYMSand UBE2C.
 9. The method of claim 1, comprising determining theexpression of at least one gene selected from ANLN, CCNB1, CDC20, CENPF,CEP55, KIF2C, MKI67, MYBL2, RRM2 and UBE2C.
 10. The method of claim 1,comprising determining the expression of each of the genes selected fromANLN, CCNB1, CDC20, CENPF, CEP55, KIF2C, MKI67, MYBL2, RRM2 and UBE2C.11. The method of claim 1, wherein the taxane or taxane derivative ispaclitaxel.
 12. The method of claim 1, wherein the breast cancertreatment comprising a taxane or taxane derivative further comprises oneor more members of the group consisting of anthracycline,cyclophosphamide and 5-fluorouracil.
 13. The method of claim 12, whereinthe anthracycline is selected from the group consisting of doxorubicinand epirubicin.
 14. The method of claim 12, wherein taxane or taxanederivative is administered before or after with the administration ofthe anthracycline, cyclophosphamide or 5-fluorouracil.
 15. The method ofclaim 1, wherein the breast cancer treatment comprising a taxane ortaxane derivative further comprises each of the members of the groupconsisting of anthracycline, cyclophosphamide and 5-fluorouracil. 16.The method of claim 15, wherein the anthracycline is selected from thegroup consisting of doxorubicin and epirubicin.
 17. The method of claim15, wherein taxane or taxane derivative is administered before, after orsimultaneously with, the administration of the anthracycline,cyclophosphamide and 5-fluorouracil.
 18. The method of claim 1, furthercomprising determining at least one of the following: tumor size, tumorgrade, nodal status, intrinsic subtype, estrogen receptor expression,progesterone receptor expression, and HER2/ERBB2 expression.
 19. Themethod of claim 1, further comprising determining each of the following:tumor size, tumor grade, nodal status, intrinsic subtype, estrogenreceptor expression, progesterone receptor expression, and HER2/ERBB2expression.
 20. The method of claim 1, wherein the sample is a samplingof cells or tissues.
 21. The method of claim 1, wherein the tissue isobtained from a biopsy.
 22. The method of claim 1, wherein the sample isa sampling of a bodily fluid.
 23. The method of 22, wherein the bodilyfluid is selected from the group consisting of blood, lymph, urine,saliva and nipple aspirate.
 24. The method of claim 1, wherein theexpression of the at least one gene is determined using a nanoreportercode system.